Symphony Math Guide

symphony math teacher guide

Copyright and Trademark Notice2010 © Symphony Learning, LLC. All rights reserved.

Symphony Math is a trademark of Symphony Learning, LLC.Director is a trademark of Adobe. Macintosh is a trademark of Apple Computer, Inc. MS Windows is a trademark of Microsoft Corporation. Symphony Math has been created with Adobe Director software.

Published by: Symphony Learning, LLC. PO Box 5491 Hanover, NH 03755

Phone: 800.234.3030 www.symphonylearning.com [email protected]

Information in this document is subject to change without notice and does not represent a commitment on the part of Symphony Learning, LLC. The software described in this document is furnished under a license agreement or non-disclosure agreement. The software may be used only in accordance with the terms of the agreement. This docu-ment and the software described within it may not, in whole or in part, be copied, photocopied, reproduced, translated, or reduced to any electronic medium or machine-readable form other than that which has been specified herein with-out prior written consent from Symphony Learning, LLC.

Acknowledgments: We thank the many math researchers, teachers and cognitive scientists for their research and practice in the field of mathematics education upon which this program is based.

Version 5.01

Table of Content | Overview of Symphony Math iii

01 Overview of Symphony Math . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1The Big Ideas of Mathematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1Multiple Ways of Knowing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Learning Through Thinking and Making Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6Dynamic Branching Allows Students to Learn at Their Own Level. . . . . . . . . . . . . . . . . . . . . .8Comprehensive Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Who Can Use Symphony Math? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10

02 Scope and Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11The Seventeen Stages of Symphony Math . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Big Idea #1: Quantity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12Big Idea #2: Parts-To-Whole . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14Big Idea #3: Hierarchical Groupings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17Big Idea #4: Hierarchical Groupings with Parts-to-Whole. . . . . . . . . . . . . . . . . . . . . . . . . . . .18Big Idea #5: Repeated Equal Groupings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21Big Idea #6: Repeated Equal Groupings with Parts-to-Whole . . . . . . . . . . . . . . . . . . . . . . . .23

03 Setting Up Accounts and Classes . . . . . . . . . . . . . . . . . . . . . . . . . . 27Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27System Requirements for the Symphony Administration Panel. . . . . . . . . . . . . . . . . . . . . . .27Logging in to the Symphony Math Administration Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . .28Symphony Dashboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28Creating Student Accounts and Your Class . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29Using the Import Tab to Create Student Accounts and Classes. . . . . . . . . . . . . . . . . . . . . . .31

04 Installing Symphony Math . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33System Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33Download and Install the Symphony Math Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34Student Sign In . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35Network Installation Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .36Set Up the School-To-Home Option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37

contents symphony math

Table of Content | Overview of Symphony Mathiv

05 District Set Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39Compatible Web Browsers for Administration Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39Configuring the Administration Panel. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .40Logging in to the Symphony Math Administration Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . .40Creating School Accounts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41Creating Student Accounts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42Using the Import Tab to Create Student Accounts and Classes. . . . . . . . . . . . . . . . . . . . . . .43Installing the Symphony Math Application. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44System Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .45Ensuring Student Access to the Symphony Web Servers . . . . . . . . . . . . . . . . . . . . . . . . . . . .45Deciding Between Local and Network Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46

06 Installing Symphony Math at Home . . . . . . . . . . . . . . . . . . . . . . . . 47Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47System Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47Download and Install the Symphony Math Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48Student Signin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .49

07 Using Symphony Math . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51The Student Signin Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51The Student Scoreboard Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52The Thinking Round. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53The Help Button. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .55The Mastery Round . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .56

08 The Symphony Dashboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Overview of the Dashboard. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .57Status Over Past Four Weeks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .58The Dashboard Categories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59Understanding the Gauges. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59How to Remedy Common Implementation Issues . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .61The Overall Status Statistics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62Understanding the Progress Over Time Graphs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62Other Important Dashboard Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .64

09 Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65Overview of Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .65Eleven Symphony Math Reports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .66Selecting Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .66School Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .67School Status Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .68School Alerts Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .70Group Reports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .71Group Status Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72Group Concepts Report. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74Group Alerts Report. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .76

Table of Content | Overview of Symphony Math v

Group Progress Graph. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77Student Concepts Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .78Student Daily Progress Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .80Student Number Relationships Report . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .82Student Progress Graph . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .84

10 Managing User Accounts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 85Staff Access . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .85Managing School Accounts Within a District. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .87Creating Staff Accounts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .88Managing Student Accounts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .89Managing Classes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .92

11 Symphony Math Advanced Settings . . . . . . . . . . . . . . . . . . . . . . . . 95Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .95Settings Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .95Account Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .96Student Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .97Network Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .98Graphics and Sound Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .98Administration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100

12 Technical Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 101Ensuring Student Access to the Symphony Web Servers . . . . . . . . . . . . . . . . . . . . . . . . . . .101Deciding Between Local and Network Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102Importing Students, Teachers, and Classes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102Fixing Program Slowness, Crashes, and Error Messages. . . . . . . . . . . . . . . . . . . . . . . . . . 104Symphony Math Automatic Updates . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105Symphony Math School-to-Home Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105

13 Preparing for a New School Year . . . . . . . . . . . . . . . . . . . . . . . . . . 107Contacting Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106Using Symphony Math . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111

14 Frequently Asked Questions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111Symphony Math Installation & Setup. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .114Symphony Math Administration Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115Contacting Technical Support. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115

Appendices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 117Appendix A: Symphony Math Scope & Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .117Appendix B: Word List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 123Appendix C: Research Base. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124

Table of Content | Overview of Symphony Mathvi

Chapter 01 | Overview of Symphony Math 1

IntroductionSymphony Math is an intervention program designed to help students develop a profound under-

standing of the most important mathematical concepts. Many students struggle to become proficient

in math because they do not have the opportunity to master foundational concepts with sufficient

depth. In an age when most curricula value covering a large number of topics, some students are

falling through the cracks. They need more time and more practice working with the big ideas of

mathematics in order to develop the proper foundation.

Symphony Math is an educational software program that provides students with the experience of

learning and thinking about the most important mathematical concepts. This experience provides

the necessary foundation for a successful future of math learning. Symphony Math helps students

achieve this solid mathematical foundation by implementing several key research-based pedagogic

strategies. These strategies are recommended by leading experts in the field of mathematics educa-

tion (see Research Base in the Appendix), and have improved student learning and understanding.

The Big Ideas of MathematicsThe conceptual sequence of Symphony Math consists of a tightly connected progression of the most

important mathematical ideas. These underlying “big ideas” are important because they provide the

foundation for later mathematical learning. The program helps students develop a profound under-

standing of the big ideas listed in this table.

overview ofsymphony math01

Chapter 01 | Overview of Symphony Math2

Mathematical Topic Underlying Big Idea Stages

Number Quantity 1, 16

Addition and Subtraction Part-to-whole relations 2, 4, 6

Place Value Hierarchical groupings 3, 5

Multiplication and Division Repeated equal groupings 8, 13

Multi-digit Addition and Subtraction

Hierarchical groupings coordinated with part-to-whole relations 7, 9, 11

Fractions Repeated equal groupings coordinated with part-to-whole relations 12, 14, 15, 17

Symphony Math guides students through a carefully constructed sequence of these big ideas which

are broken down into smaller concepts and presented in a developmental sequence. It’s easier for

students to work through the big ideas in smaller parts, since it can be difficult to internalize them all

at once. Each concept provides the foundation for the subsequent concept, and later concepts are

built upon and coordinated with earlier concepts.

Symphony Math’s conceptual sequence provides an in-depth learning experience because it gradu-

ally builds the complexity of problems to a more advanced level than students typically encounter. For

example, to help students develop a deep understanding of Quantity (or number sense), the program

guides students through the following sequence of concepts from Stage 1:

Concept Example Solution

Equal 3 = ? 3 = 3

Greater 8 > ? 8 > 2

Less 5 < ? 5 < 7

Between 4 < ? < 9 4 < 6 < 9

Missing comparison 2 ? 5 ? 7 2 < 5 < 7

Not equal 7 ≠ ? 7 ≠ 10

A student does not move on to the next concept in the sequence until she has mastered the current

concept. One concept follows logically from the previous concept. While a student is working on

a new concept she sees review concepts that help support her learning of the new concept. This

process helps the student connect new knowledge to previous knowledge.

Numbers represent relative quantities, or amounts. This is the fundamental idea that students

work on in Stage 1. Symphony Math challenges students to develop an internal number line so that

they can quickly and easily see numbers as a network of related quantities. Solving more complex

problems (e.g., 1 < ? < 6, solved three different ways) leads to a more robust understanding for the

student. Compare this to the more superficial understanding some students develop during elemen-


tary school, where numbers are just a sequence of memorized sounds and symbols. Counting is an

important skill. However, it is only the beginning of understanding the number system.

Multiple Ways of KnowingIntegrated with the Symphony Math conceptual sequence are six distinct activity environments. These

activities provide multiple representations of each concept in the program.

Activity Purpose

Manipulatives Conceptually understand what the concept “looks like”

Manipulatives & Symbols Explicitly connect symbols to their visual representations

Symbols Understand the concept at the abstract level

Auditory Sentences Learn the formal language of mathematics

Story Problems Extend understanding to real life problem solving

Mastery Round Develop immediate recall of number relationships

The use of different activities accomplishes several goals. First, it introduces concepts at the concrete

(or visual) level. Students can see what the concept looks like, and this helps them develop a mental

model of its meaning. In stage two, Intro to Addition & Subtraction, students work with manipula-

tives to internalize the Parts-to-Whole big idea that underpins addition and subtraction. In this stage,

students encounter problems like the one below:

Five bar must beinserted in this area.

A three bar anda two bar are combined.


Students must find a number bar that is the same length as the 3 bar and the 2 bar combined. Later,

they will see a problem like the one below. The whole is on top and is represented by the yellow 5

bar. One of the parts is below and is represented by the blue 4 bar. The student needs to find the

length of the missing part. In symbols, this problem would be represented as ? + 4 = 5

The whole isfive units long.

A part ismissing. (One unit long.)

In this way students come to understand how to solve problems like 2 + 5 = ? and 4 + ? = 9 using

manipulatives. The process helps students understand the Parts-to-Whole big idea and its different

variations.

The use of a variety of activities also helps students make the connection between symbols and the

concepts that the symbols represent. At a superficial level some students can memorize the counting

sequence and basic number facts without appreciating their meaning. A student may understand

that 5 + 2 = 7 because 7 comes 2 numbers after 5. However, the student may not know what 5 + 2 =

7 looks like concretely, or may not know why it is also true that 2 + 5 = 7.

The Manipulatives & Symbols activity helps with this issue by explicitly challenging students to con-

nect symbols with concrete representations. A student will be given a number sentence such as 8 +

1 = ? and must construct the corresponding visual representation. Or, they will be given the problem

with number bars and they must provide the corresponding symbols.

8 + 1 = 9 is given with number bars.

Student must construct the corresponding problem with symbols.


In this way, students explicitly connect symbols with visual representations and manipulatives with

symbolic representations. This is the bridge from the concrete (manipulatives) to the abstract (sym-

bols) and helps students connect their intuitive understanding of number relationships to the formal

number system we use to represent them.

The third activity uses only symbols. Now that the student has demonstrated proficiency with the ma-

nipulatives in the first activity and the meaning of symbols in the second activity, she gains proficiency

with procedures in the the third activity. The Symbols activity presents problems with symbols, but the

integer bars will appear automatically if a student makes a mistake or asks for help.

The fourth activity emphasizes spoken language. Students hear the problem, then must construct it

with symbols and solve it. This activity helps students learn the formal language of mathematics and

connect it to the symbols and manipulatives from earlier activities.

The fifth activity challenges students with story problems. Students are presented with a written word

problem as shown below. Students must construct the corresponding number sentence and solve it. If

they need to, they can press a button and have the story problem read out loud, with each word high-

lighted as it is read. This activity challenges students to extend their knowledge to real life problems.

Story problems are traditionally quite hard for struggling math students. A student’s previous in-depth

work with manipulatives, symbols, and language helps provide the conceptual foundation and experi-

ence they need to succeed.

Students can press this button to hear the story problem.

Solution isconstructed here.

The sixth activity environment is the Mastery Round, shown on the next page. This is a fluency activity

that helps students develop immediate recall of number relationships. Students are presented with

number relationships problems with symbols or spoken language. They need to answer correctly

before the problem disappears to demonstrate mastery. Only concepts and number relationships


with which students have demonstrated proficiency in an untimed setting are presented during the

mastery round. This avoids the too-common problem of encouraging students to memorize what they

do not understand.

Students need to solve the problem before the cube falls away from view.

Learning Through Thinking and Making ConnectionsThe pedagogic style of Symphony Math emphasizes thinking, figuring out, and making connec-

tions. The program is designed to be used as a complement to the classroom learning experience.

Students receive direct instruction and group learning in a classroom setting. The program provides

the opportunity for individual practice at the developmental level of each student. The style of this

practice encourages independent thinking and problem solving, and this is accomplished through

the use of three important pedagogic strategies.

Instructive FeedbackSymphony Math encourages independent thinking by providing instructive feedback that reveals the

nature of each incorrect response. For example, if a student answers 3 + ? = 6 with a 2, the program

immediately shows that a 3 bar combined with a 2 bar is not the same length as a 6 bar.

The number barsautomatically appear to illustrate that a 3 bar and a 2 bar are not the same length as a 6 bar.

The student solves this number sentence incorrectly.


Providing instructive feedback encourages students to deduce for themselves why an incorrect answer

is not accepted. This is preferred to saying something like “that’s not right, try again” because that

approach often leads to guessing and not understanding why the answer is not correct.

Using the Help ButtonAnother way that Symphony Math encourages learning through thinking is the use of the Help button.

The Help button provides scaffolding, which leads the student closer to the solution but does not give

the answer immediately. Additionally, the scaffolding provided by the Help button does not directly

explain the procedures for achieving the solution. Immediately providing the correct procedures or

solution undermines the thinking and understanding of the student and encourages her to depend on

the program for solutions instead of developing her own problem solving skills.

If a student is confronted with the problem 8 + 1 = ?, she can press the Help button to activate

scaffolding that will help her connect 8 + 1 with her existing knowledge of the concept and number

relationships. This maintains the emphasis on thinking and making connections. If she needs more

help, she can continue to press the Help button. The sequence of the help scaffolding for the problem

8 + 1 = ? is shown in the table below.

Help Button Activation Help Provided for the Problem 8 + 1 = ?

1st Show a “near neighbor”: 7 + 1 = 8

2nd Show a second “near neighbor”: 9 + 1 = 10

3rd Show 8 + 1 using number bars

4th Show that the 9 bar is equal in length to the 8 and 1 bar

The Help button provides hints and scaffolding that challenge students to make inferences and con-

nect what they are learning to concepts they have already mastered. This helps guide the disposition

of the student toward problem solving and independent thinking, not copying or guessing.


In-Depth Problem SolvingA third strategy that Symphony Math uses to encourage independent thinking is the use of specially

designed problems that provoke thinking. For example, to master place value concepts students will

be asked to solve a series of problems designed to help understand the base ten system. Students

will combine numbers of different place values, such as “30 + 400 + 7 = ?”. They will also be asked

to create number sentences where the sum is provided but the addends are missing, such as

“? + ? + ? = 286”. Each addend must correspond to the ones, tens and hundreds place value

(e.g. 200 + 80 + 6 = 286). At the most difficult level, students need to provide three different solu-

tions to this type of problem.

Each stage in the program has specially designed problems that keep the focus on thinking and

understanding. Students are not specifically told how to solve problems such as ? + ? + ? = 431 or

? - ? = 3, but they logically deduce the solutions by connecting these problems to similar problems

that they have previously mastered.

Dynamic Branching Allows Students to Learn at Their Own LevelSymphony Math works with each student at his or her developmental level. The “dynamic branching”

of the program and detailed progression of the scope and sequence allows students to work within

their developmental zones. An advanced student who has complete mastery of all of the program’s

concepts can complete the program in less than two hours. An intermediate student might move

through the program to stage eight in less than an hour, but then spend several weeks working on

stage eight because that is her specific area of need. A younger or struggling math student may only

progress to stage two and then spend the rest of the school year working on Stage 2 concepts. The

amount of time and practice that students need to understand mathematical concepts is not uniform.

Symphony Math allows students to spend the time they need mastering foundational concepts. In

addition, the program quickly moves students through the conceptual progression of the program to

identify their area of need. Once the area of need has been identified, the program slows the progress

until the necessary understanding has been achieved.

Dynamic branching not only assesses students’ understanding vertically through the hierarchy of

stages, but it also tracks students’ proficiency horizontally across the six different activity environ-

ments. In addition, Symphony Math tracks and branches students according to their mastery of

specific number relationships. For example, the program tracks whether a student understands what

1/6 of 12 is, or 2/3 of 9. The program systemically records which number relationships have been

mastered and which have not, and branches students accordingly. Another example is the number

relationships for multiplication and division. Not only does the program track basic multiplication

and division number relationships such as 2 x 3 and 8 ÷ 4, but it also records progress with number

relationships such as missing dividend (? ÷ 4 = 2), missing multiplicand (3 x ? =12), and missing

multiplier (? x 2 = 8).

This detailed level of data tracking allows Symphony Math to find a student’s area of need down to

the specific concept, representation, and number relationship. The branching responds in a way that


helps the student fill in these gaps in her learning while quickly moving through those areas that have

been mastered.

Comprehensive ReportsWith each day of student use, Symphony Math provides teachers with detailed reports that inform

their classroom instruction. The program reports provide a big-picture look at where students are in

their overall mathematical development. Detailed reports inform teachers of students’ progress with

specific concepts and number relationships. The Symphony Dashboard alerts teachers to specific is-

sues that need to be addressed. For example, the Dashboard may alert a teacher about a student who

needs help with missing addends using symbols. Digging deeper into the reports might reveal that the

student is specifically having difficulty with 9 + ? = 16 and 5 + ? =13.


Who Can Use Symphony Math?The rigorous application of cognitive development principles in Symphony Math make it a suitable

intervention program for a wide range of students. The program seeks to identify gaps in each stu-

dent’s mathematical understanding, and then present a series of problems designed to fill in those

gaps.

Grades Category Objective Recommended Use

K - 2 Gifted Enhancement 15 minutes 2 times per week

1 - 4 On Grade Level Deepen understanding and support instruction 15-20 minutes 3 times per week

2 - 6+ Remediation Identify and fill in gaps in mathematical foundation 20 minutes 5 times per week

Gifted students in kindergarten through second grade may use Symphony Math to enhance their

knowledge and move ahead to where their ability and motivation takes them. Students performing

on grade level in grades one through four can use the program to deepen their understanding and to

support teachers’ classroom instruction. Struggling students in grades two through six (and beyond)

may use the program to identify gaps in their mathematical foundation and begin to fill them in. The

age neutral interface of Symphony Math makes it comfortable for a wide age range of students to

enjoy and benefit from the program.

Chapter 02 | Scope and Sequence 11

IntroductionSymphony Math is an intervention program designed to help students develop a profound under-

standing of the most important mathematical concepts. Symphony Math focuses on the big ideas of

mathematics — the foundational knowledge upon which all later math learning is based. The six “big

ideas” developed in Symphony Math include:

l Quantity

l Parts-to-Whole

l Hierarchical Groupings

l Repeated Equal Groupings

l Hierarchical Groupings with Parts-to-Whole

l Repeated Equal Groupings with Parts-to-Whole.

Each big idea consists of a network of related concepts which are sequenced throughout the seven-

teen stages of Symphony Math.

Another important component of the Symphony Math Scope & Sequence is the multiple representa-

tions of each concept. The program uses a mixture of manipulatives, symbols, language, story prob-

lems, and auditory and symbolic fluency to help students make connections between representations

and more fully understand each big idea. While this chapter lays out the sequence of stages and

concepts, it is important to remember that each concept utilizes multiple representations throughout

the program. See Chapter 1 for an overview of the different representations used in Symphony Math.

scope and sequence02

Chapter 02 | Scope and Sequence12

The Seventeen Stages of Symphony Math

# Stage Name Example Underlying Big Idea

1 Number Sense 4 < ? < 7 Quantity

2 Introduction to Addition & Subtraction 2 + 1 = ? Parts-to-Whole

3 Ones, Tens & Hundreds 100 + 100 + 100 = ? Hierarchical Groupings

4 Intermediate Addition & Subtraction 5 + 6 = ? Parts-to-Whole

5 Two-Digit & Three-Digit Numbers 300 + 40 + 1 = ? Hierarchical Groupings

6 Advanced Addition & Subtraction 9 + 8 = ? Parts-to-Whole

7 Adding & Subtracting One-Digit Numbers

8 + 7 = ? (vertical format)

Hierarchical Groupings with Parts-to-Whole

8 Introduction to Multiplication & Division 2 x 1 = ? Repeated Equal Groupings

9 Adding & Subtracting Two-Digit Numbers 56 + 75 = ? Hierarchical Groupings

with Parts-to-Whole

10 Three-Part Addition & Subtraction 8 + 5+ 2 = ? Parts-to-Whole

11 Adding & Subtracting Three-Digit Numbers 342 + 237 = ? Hierarchical Groupings

with Parts-to-Whole

12 Introduction to Fractions 1/2 of 2 = ? Repeated Equal Groupings with Parts-to-Whole.

13 Intermediate Multiplication & Division 3 x 9 = ? Repeated Equal Groupings

14 Unit Fractions 1/2 of 4 = ? Repeated Equal Groupings with Parts-to-Whole

15 Non-Unit Fractions 2/3 of 9 = ? Repeated Equal Groupings with Parts-to-Whole

16 Not Greater & Not Less 4 >/ ? Quantity

17 Improper Fractions 3/2 of 4 = ? Repeated Equal Groupings with Parts-to-Whole

Big Idea #1: Quantity

Quantity is the big idea that describes amounts, or sizes. It is a fundamental idea that refers to

quantitative properties. The different types of quantitative properties include the size of things

(magnitude), such as weight, height, or length, and the number of things (multitude), such as the

amount of objects.

Quantity is a big idea of mathematics because so many mathematical concepts are dependent upon

it. Take for example the five mathematical content strands from the National Council of Teachers of

Mathematics. At the heart of each of these strands is the big idea of Quantity. Geometry is the quan-

tity of space. Number is the quantity of things. Measurement is the quantity of dimensions. Algebra

is the relationship of quantities. Statistics is the representation and analysis of quantities.


Why Students Need to Understand Quantity

Quantity means that numbers represent amounts. If students do not understand Quantity, their

understanding of other areas will be undermined. Understanding Quantity helps students develop

number conceptualization. The sequence of numbers is determined by each number’s magnitude, a

concept that not all children understand.

Some students learn the number system as they do the alphabet. They memorize the sequence of

sounds and symbols. However, unlike the alphabet, numbers represent concepts. The sequence of

counting numbers represents an increase in size with each number. Some students can learn to solve

simple math problems without understanding that a number is a concept that represents a quantity. A

student may know that 9 comes after 8 but not know that 9 represents a larger quantity than 8.

It is possible for a student to navigate through an elementary math curriculum without understanding

the concept of Quantity. Students apply strategies that produce correct answers without having to pay

attention to the fact that the numbers in the equations represent real amounts. Students can rely on

counting to produce correct answers without understanding the meaning. However, as the curriculum

becomes more complex this superficial understanding of Quantity may undermine their progress.

How Symphony Math Helps Students Understand Quantity

Stage 1, Number Sense, is designed to help students move from counting to understanding that

numbers represent quantities. If a student already has this understanding she will move quickly

through the stage. If a student does not understand the big idea of quantity, she will spend time in

Stage 1 developing this understanding.

Stage 1 begins with the concepts of same, taller, and shorter. Students work with number bars to

identify which ones have the same height, are taller, or are shorter. Most students come to school

with this intuitive understanding of relative heights using concrete objects. In Stage 1 they learn to

extend this understanding to symbols. They connect the idea that an object can be taller or shorter

than another object to the idea that a symbol can represent a number than can be greater or smaller

than another number.


At higher levels of Stage 1 students must find number bars or numerals that are between two other

bars or numerals. For example, students need to find a number that is greater than 3 and less than

7. These kinds of problems help students develop an internal number line and an appreciation for the

fact that numbers represent quantities.

Big Idea #2: Parts-To-Whole

Parts-to-Whole is the big idea that underlies addition and subtraction. The idea is that there is a whole

that can be partitioned into a certain number of parts. If we combine the parts, they equal the whole.

If the whole is 8, the parts could be 6 and 2. Combine the two parts (6 + 2), they equal the whole (8).

We can change the order of the parts (2 + 6) and they still equal the whole. We can also find several

different ways of making a whole (8) out of two parts, such as 7 + 1 or 3 + 5.

A part can be taken away form the whole leaving another part left over. The whole is 8, we take away

5, 3 is left over. A student that has developed in-depth understanding of the Parts-to-Whole big idea

can see addition and subtraction as different ways of forming number relationships, often called “fact

families.”

l 5 + 3 = 8

l 3 + 5 = 8

l 8 - 3 = 5

l 8 - 5 = 3


Why Students Need to Understand Parts-to-Whole

Students need to understand Parts-to-Whole in order to move beyond numeracy as counting to

understand numbers as an inter-related system. An understanding of Parts-to-Whole leads to a better

understanding of addition and subtraction, success with story problems and provides the necessary

foundation for understanding later mathematical concepts.

It is possible to solve simple addition and subtraction problems by using the counting strategy in place

of understanding the big idea of Parts-to-Whole. For example, to solve 6 + 3, the student counts to six,

and then counts three more, often ticking off the last 3 on her fingers, arriving at 9. You ask the same

student 9 - 3, she starts at nine and counts backwards three numbers to arrive at 6.

While this student may answer with correct answers, this does not mean she necessarily understands

Parts-to-Whole. When faced with the following story problem:

“Joe has $4. Sam and Joe have $7 together. How many dollars does Sam have?”

The student who does not have an understanding of Parts-to-Whole may look for a keyword and then

count to find the solution. The keyword in this example is “together”, which the student has been told

means to count on. So the student starts with 7, counts on 4 more and arrives at 11 as an incorrect

answer.

The student who understands Parts-to-Whole approaches this problem in a different way. For 6 +

3, the student can mentally picture 6 combined with 3 as being equal to 9. When asked what 9 - 3

equals she knows that since 6 + 3 = 9, therefore 9 - 3 must equal 6. For the word problem example

she identifies 7 as the whole and 4 as one of the two parts, leading her to conclude that 3 is the

missing part.

The Parts-to-Whole idea is also foundational for place value, multiplication and division as well as frac-

tions. Students who do not understand Parts-to-Whole and who can only solve addition and subtrac-

tion with counting may not have the conceptual foundation to understand these later concepts.

How Symphony Math Helps Students Understand Parts-to-Whole

Stages 2, 4, 6, and 10 emphasize the understanding of the big idea of Parts-to-Whole. This is the key

idea that students need to internalize to understand addition and subtraction.


In Stage 2 students are introduced to the Parts-to-Whole big idea with simple addition. Using number

bars they see that two small bars combined to equal the length of a longer bar. They then work to

understand missing parts. After working on missing part, subtraction is introduced. A long bar is

presented, the students needs to determine which bar would be left over if a certain bar was taken

away form the whole.l 2 + 1 = ?l 2 + ? = 3l 3 - 1 = ?

Stages 4 and 6 introduce more difficult number relationships as well as two missing parts and a miss-

ing whole and a missing part.l 10 - ? = ?l ? + ? = 10

Stage 10 introduces three-part and four-part problems.l 2 + 3 + ? = 10l 2 + 4 = ? + 3

As students work their way through stages 2, 4, 6 and 10 they develop a deep understanding of the

Parts-to-Whole idea. This leads to a strong understanding of addition and subtraction and provides

the foundation for later concepts such as multiplication, division, place value and fractions.


Big Idea #3: Hierarchical Groupings

Hierarchical Groupings is the idea that amounts can be grouped into a system of sets and subsets.

We can count 11 objects and group them into 1 ten and 1 ones, or we can call them 11 ones. One

hundred and seventy nine represents 1 hundred, 7 tens, and 9 ones.

In order to progress mathematically students need to be able to perceive the place value structure of

a number -- they need to be able to understand what larger numbers mean. Without understanding

this structure 179 is just the number that comes after 178 and before 180. While this may be cor-

rect, on its own it does not represent a sufficient understanding.

There are of course other examples of hierarchical groupings, further illustrating why this is an

important big idea. Time, for example, is organized in terms of seconds, minutes, hours, days and

so on. Sixty seconds equals one minute, 60 minutes equals one hour, and 24 hours equals 1 day.

Time is a particularly complex system for young students to master because it involves the base ten

number system as well as the unique hierarchical groupings of the temporal system. Furthermore,

the grouping amounts for each step of the hierarchy may be different -- 60 minutes equals 1 hour but

60 hours does not equal 1 day.

Why Students Need to Understand Hierarchical Groupings

A student who does not have a strong understanding of Hierarchical Groupings may have difficulty

answering the question, “Which number is larger, 79 or 81?”. She might think 79 is larger because

the 7 and the 9 combined make 16 while the 8 and the 1 combined only make 9. This indicates a lack

of understanding that the 7 in 79 equals 7 tens and the 8 in 81 is the same as 8 tens. The under-

standing of how these numbers are composed in the base-ten place-value system is foundational to

success with multi-digit addition and subtraction where students must compose larger numbers in

addition and decompose them for subtraction.

How Symphony Math Helps Students Understand Hierarchical Groupings

Stages 3 and 5 are designed to help students understand Hierarchical Groupings and prepare them

for multi-digit addition and subtraction. The problems in these stages challenge students to compose

and decompose numbers of progressing complexity. In Stage 3 students are asked to take apart and

build numbers in the ones’ place column. For example, 1 + 1 + 1 + 1 = ?.

Understanding of the tens place value is developed by challenging students to solve problems where

they have to compose and decompose numbers such as 10, 20, and 30. For example,

10 + 10 + 10 + 10 = ? and ? + 40 = 100. After successfully developing an understanding of tens,

students progress to the hundreds. For example, 100 + 100 + 100 = ? and ? + 400 = 1000.


At this point, students have a basic understanding of what 1, 10, 100, and 1000 mean. In Stage 5

students learn how to integrate the ones, tens, and hundreds place values. For example, 50 + 4 = ?.

Some students might answer 9. This is a misapplication of the addition they have learned with the

ones’ place value; they add the 5 from 50 with the 4, not understanding that the 5 in 50 represents

five tens. Once students become proficient at integrating two-digit numbers, they progress to three-

digit numbers.

There are a number of pedagogical strategies in Stages 3 and 5 that are designed to push students’

understanding to a deeper level and help them to make connections between concepts. After solving

a problem such as 300 + 500 = ?, they will be asked 30 + 50 = ? and then 3 + 5 = ?. This is designed

to help students connect the larger place-value numbers with their mastery of smaller number

relationships. Students will also encounter problems such as 971 > ? > 799, in order to consolidate

their emerging knowledge of place value and to explicitly connect it to the concepts they learned in

the Number Sense stage, where they solved problems such as 9 > ? > 7.

Big Idea #4: Hierarchical Groupings with Parts-to-Whole

As its name implies, Hierarchical Groupings with Parts-to-Whole is a complex idea -- one that involves

the coordination of two earlier big ideas. It also illustrates the hierarchal nature of mathematics and

how a poor foundation is likely to interfere with the learning of later concepts.

For this big idea students must coordinate their knowledge of Hierarchal Groupings and Parts-to-

Whole. Let’s look at the following problem:

268

+ 453 _____


Two hundred sixty eight is one part. The other part is 453. Combined they form the whole. Conceptu-

ally the student needs to understand she is looking for a missing whole. Procedurally, she must un-

derstand that when she combines the 8 and the 3 this yields a 10 and a 1. The ten will be combined

with the other tens (6 and 5).

In this way the student is working with both the Hierarchal Groupings idea and the Parts-to-Whole

idea. Not only is solving multi-digit addition and subtraction problems procedurally complex, but it is

also conceptually complex relative to the preceding concepts in the curriculum. It is one of the first

periods in mathematical learning where many students begin to apply complex procedures they do

not fully understand.

Why Students Need to Understand Hierarchical Groupings with Parts-to-Whole

One of the most common problems for students who do not understand Hierarchal Groupings with

Parts-to-Whole is their tendency to make consistent errors in their problem solving. They attempt to

follow the procedures they have been taught to solve multi-digit addition and subtraction problems.

But these procedures are numerous and complex. Without an in-depth understanding of the two

underlying big ideas students tend to make errors as it is hard to remember the correct sequence of

steps.

For example, given the following problem:

1205

- 302 _____

The student accurately takes 2 from 5 to get 3 for the ones column and correctly places a 0 in the

tens column. In the hundreds column the student places a 1 from taking the 2 away from the 3. The

student forgot that the bottom number is to be taken away from the top number, or maybe took the 2

from the 3 because it is easier and she wasn’t sure how else to subtract the 3 from the 2.

1205

- 302 _____ 1103

The student who has an in-depth understanding of Parts-to-Whole is unlikely to commit this mistake

because she sees the 2 as part of the whole and the 3 as the part that is to be subtracted. Further-

more, an understanding of hierarchical groupings would lead the student to look at this part of the

problem as 12-3 or 12 hundreds minus 3 hundreds.

Finally, the student who is thinking of these numerals as amounts, or concrete values would intuitively

recognize that 1200 minus 300 can not equal 1100, just like 12 minus 3 can not equal 11.


The student who has not developed an in-depth understanding of these big ideas is likely to rely only

on the step-by-step application of procedures without the supporting understanding of what these

procedures mean and why they work. When she produces a nonsensical answer the mistake is not

apparent because she has stopped looking at the numbers as representing meaningful quantities.

She is simply manipulating symbols as best she can according to the procedure.

How Symphony Math Helps Students Understand Hierarchical Groupings with Parts-to-Whole

Stages 7, 9, and 11 consolidate the ideas developed in the previous stages and extends them into

the process of adding and subtracting large numbers that require regrouping. This process is more

complex both in terms of the necessary conceptual understanding and the number of steps. The

procedural and conceptual complexity of multi-digit addition & subtraction make it one of the biggest

barriers to mathematical learning for some children. The purpose of these stages in Symphony Math

is to help students become accurate and efficient with the procedures of multi-digit addition and

subtraction, as well as to understand its underlying big idea.

Stages 7, 9 and 11 use the traditional algorithm of solving from right to left, starting with the ones col-

umn. There are other methods to solve these types of problems, but this is the most widely accepted

and is effective with all types of problems. Students can also be encouraged to learn alternative solu-

tions in their classroom, but since not all classrooms embrace the teaching of alternative algorithms,

Symphony Math does not introduce them. There is flexibility within the program to use alternate

solution strategies, but there use is not required.

The common critique of the traditional algorithm is that it is not intuitive and some students employ

it in a rote manner without grasping its meaning. Symphony Math addresses this weakness by


introducing the traditional algorithm through all five Symphony Math representations: Manipula-

tives, Manipulatives and Symbols, Symbols, Auditory Statements, and Story Problems. The process

of decomposing and recomposing larger numbers can be complicated, but through the use of the

manipulatives students intuitively grasp the logic behind the algorithm. Students can see why they

must bring the 10 over from the ones to the tens column in addition and why they must break down

a hundred to bring over a 10 to the tens column in subtraction. Stage 7 begins with addition and

subtraction problems that do not require regrouping and introduces students to the vertical format of

addition and subtraction.

Addition with regrouping is introduced with simple one-digit addends that students will have previously

mastered in the horizontal format in Stages 4 and 6. Familiarity with these number relationships

helps students develop an understanding of adding and subtracting in the vertical format. In Stage 9

students progress to adding two-digit numbers with regrouping. Initially, only one of the two columns

involves regrouping. At the end of the level, both columns involve regrouping. In Stage 11 three-digit

addition follows a similar pattern where students are introduced to the level with only one column

requiring regrouping. With correct responses, students progress to problems that require regrouping

in two columns and eventually in three columns. Subtracting large numbers with regrouping follows a

similar progression.

Big Idea #5: Repeated Equal Groupings

The Repeated Equal Groupings big idea builds upon the Parts-to-Whole idea. With Repeated Equal

Groupings, the whole is not only broken into parts, but broken into a specific number of parts and

each part is of equal size. For example, there are 30 students in the class (the whole). The teacher

divides the class into groups of 6 (the equal groups). These equal groups are repeated 5 times to

equal the whole.

Repeated equal groupings is the big idea that underlies multiplication and division. Multiplication

consists of taking a part (the multiplicand) and repeating it a certain number of times (the multiplier)

to equal the whole (the product). Division consists of a whole (the dividend) that is partitioned into a

certain number of equal groups (the divisor) that is equal to the size of the equal parts (the quotient).

Why Students Need to Understand Equal Groupings

It is possible for students to memorize multiplication facts without understanding what they mean.

Students can also use skip counting to correctly solve multiplication problems without appreciating

the significance of how they arrived at the correct answer. In addition to being able to immediately

recall multiplication and division facts, students also need to be able to understand what these opera-

tions mean.

Students who understand equal groupings have a better chance of memorizing multiplication and

division number relationships because they have a conceptual basis to support their learning. For

example, they are more likely to see the connections between:


l 7 x 4 = 28l 4 x 7 = 28l 28 ÷ 4 = 7l 28 ÷ 7 = 4

In solving story problems, students who understand equal groupings will be better able to identify how

to set up the number sentence to correspond to the story problem.

Equal groupings is also fundamental to fractions. Students who are only relying on memorized facts

and skip counting strategies may have difficulty understanding the meaning of fractions and how they

build upon multiplication and division.

How Symphony Math helps Students Understand Repeated Equal Groupings

Stages 8 and 13 develop an understanding of grouping and partitioning by building upon the Parts-to-

Whole concepts established in Stages 2, 4, and 6. They reinforce the concept of repeated groupings

-- that multiplication represents repeated addition and that division represents repeated subtraction.

Stages 8 and 13 help students develop their conceptual understanding of what these operations

mean and then help students learn the number relationships through systematic practice and evalua-

tion.

Stages 8 and 13 address number relationships with products and dividends up to thirty. This ap-

proach uses the repeated addition model of multiplication and the repeated subtraction model of

division. This helps students understand the connection between addition and multiplication and

between subtraction and division.


Big Idea #6: Repeated Equal Groupings with Parts-to-Whole

The big idea of Repeated Equal Groupings with Parts-to-Whole is the most complex of the big ideas

addressed so far. Similar to Repeated Equal Groupings this big idea involves repeating an equal sized

group, or partitioning an amount into equal groups. It also involves a ratio of parts to the whole. Not

only do students have to keep track of the whole and its equal groups as with multiplication and divi-

sion, but they also have to be mindful of the number of parts relative to the whole.

For example, with multiplication and division we need to work with the total, the size of the parts and

the number of parts. There are 30 students in the class (the whole equals 30), the teacher divides

the class into 5 groups (the number of parts equals 5), there are six students in each group (the size

of the part equals 6). This leads us to 30 divided by 5 equals 6.

Let’s take that same Equal Groupings example and add the Parts-to-Whole component. What if the

teacher said that 1/5 of the of class received an A on the last math quiz. How can we determine how

many students received an A? The fraction one-fifth is a parts-to-whole representation. It means one

part out of five parts. To determine how many students is equal to 1/5 of 30 we can first use Equal

Groupings. Five equal groups of 30 means that there are 6 students in each group. Therefore, 1/5 of

30 equals 6.

It is for this reason that an in-depth understanding of Repeated Equal Groupings with Parts-to-Whole

is fundamental to understanding fractions. Students need to understand the big idea of Parts-to-

Whole developed with addition and subtraction as well as the big idea of Repeated Equal Group-

ings developed with multiplication and division. These two big ideas coordinated together gives us

Repeated Equal Groupings with Parts-to-Whole, the foundational idea for fractions. This perspective

also helps us understand why fractions can be so difficult for students. Not only do they need to have

mastery of the proceeding big ideas, but they need to coordinate them together.

Why Students Need to Understand Equal Groupings Coordinated with Parts-to-Whole

Because of the complexity of fractions, and other related concepts such as ratios, decimals and

percents, students need to understand the coordination of Equal Groupings with Parts-to-Whole.

An understanding of this big idea will help students better navigate the many counter-intuitive and

confusing aspects of fractions.

Fractions are difficult for students to learn not only because of its conceptual complexity but also

because many of its features appear contradictory to what students have learned previously. For

example, the concept of equivalence in fractions indicates that two halves equal one whole, and four

quarters equal two halves, and so on. Previously students have learned that numbers indicate differ-

ent amounts. They learned that 2 does not equal 1. But with fractions 2/2 does equal 1.


Equally confusing is the fact that fractions with the same numerals can equal different amounts. A

student might expect that 1/2 always equals 1/2. But the student must consider 1/2 of what? One-

half of $100 does not equal 1/2 of $50.

Students may also find the names of fractions to be confusing. Previously students have understood

later numbers in the counting sequence to represent larger quantities. Twelve is greater than 2, for

example. However, with fractions 1/12 is not greater than 1/2.

When some students are confronted with the complexity of fractions and they do not have sufficient

mastery of the necessary big ideas they may resort to memorized strategies that lead to correct

answers. They learn rules like “find the common denominator, then add.” Or, “flip it and multiply.”

They might remind themselves that “the bigger the denominator the smaller the fraction.” While these

memorized strategies may lead to correct answers, on their own they do not lead to a deep under-

standing of fractions.

How Symphony Math Helps Students Understand Equal Groupings with Parts-to-Whole

The earlier stages of Symphony Math systematically lay the the foundation to understand Equal

Groupings with Parts-to-Whole. Stages 12, 14, 15 and 17 build on this foundation to help students

understand Equal Groupings with Parts-to-Whole. There are four concepts that comprise the Equal

Groupings with Parts-to-Whole big idea.

l The whole is divided.

l There are a specific number of parts.

l The parts are of equal size.

l The parts equal the whole.

Symphony Math begins fractions problems with visual models to help students see these four

concepts. The visual models illustrate the properties of these four concepts and become a visual

language for understanding Equal Groupings with Parts-to-Whole. With every problem students solve

the visual model reminds them of the four concepts of Equal Groupings with Parts-to-Whole. If they

make a mistake they will see that the number of parts are too many or not enough, or that the size of

the parts does not equal the whole, or that the parts are not of equal size.


Stage 12 introduces students to fractions using only unit fractions where the whole is the same

number as the denominator. For example, students are asked to find 1/4 of 4 or 1/2 of 2. In stage

14 students continue to work with unit fractions but here the denominator can be a different number

than the whole. For example, find 1/4 of 8, or 1/6 of 12. In Stage 15 students find problems with

non-unit fractions, such as find 2/3 of 9. Finally, in Stage 17, students must solve improper fractions,

such as 3/2 of 4.

For each of these stages students are challenged to find missing parts (e.g. 1/4 of 4 = ?), missing

wholes (e.g. 1/4 of ? = 1), and missing relationships (e.g. ?/? of 4 = 1). By solving these problems

from the perspective of missing parts, missing wholes, and missing relationships students come to a

better understanding of the Equal Groupings with Parts-to-Whole big idea.


Chapter 03 | Setting Up Accounts and Classes 27

Introduction

Symphony Math is an Web-enabled application. The student software program is installed on your

schools’ file server or on each workstation. You will use a web browser to manage student accounts

and review reports. Data from student use of the software program is stored and maintained on a se-

cure server at Symphony Learning. All transactions during use of Symphony Math use SSL encryption

to ensure the best available privacy of student records. Each workstation requires an active Internet

connection (28 kbps or better per workstation) in order to run the program software. Symphony Math

is not recommended for sites that do not have reliable Internet access.

System Requirements for the Symphony Administration Panel

Mac Windows

OS X version 10.2 + Windows 2000, XP, Vista

Safari 2+, Firefox 2+ Internet Explorer 7+, Firefox 2+

Active Internet connection (28 kbps or better) Active Internet connection (28 kbps or better)

setting up accounts and classes03

Chapter 03 | Setting Up Accounts and Classes28

Configuring the Administration PanelSymphony Math is a Web-enabled program and all student and class data is stored online. The

program is installed on each workstation or on the school server, and student data is transmitted over

the internet to the Symphony Server. For this reason, you can add students and classes before you

install the program. All class and student data is created and modified via an online administration

panel using a Web browser. To login, you must enter your site ID, Username and Password.

If you have not received a Symphony Math Welcome Email, contact Symphony Support at

800.234.3030 or email [email protected].

Logging in to the Symphony Math Administration Panel

To access your administration panel:1 Open your web browser and go to the Symphony Math website: www.symphonymath.com.

2 Click School Login.

3 Enter your School Account Number, your Username, and your Password.

4 Click Login.

School Login Button. Click here to access the administration panel.

Symphony Dashboard

Once you have logged in you will see your Symphony Dashboard. If your students have not used Sym-

phony Math yet your Dashboard will not show any information. Once your students begin using the

program you can consult your Dashboard on a regular basis for important information on the progress

and needs of your students.


Creating Student Accounts and Your Class

To create student accounts:1 Click the Students tab from the online Administration Panel.

2 Click Add Student.

3 Enter the student information. Only the first name, username and password fields are required.

4 Click Save Changes.

5 You will be returned to the list of student names where you can see the new student ac-count.

ProgramNarration Pulldown

Select to change language setting.

SessionTime Limit

Enter number of minutes each session should last.

Select onlythe stages you would like to make available to a student.

Enter studentinformation in these fields. Fields* are required.

Student Rank Select to

enable students to see world ranking.


!

To change the program narration language setting:

l When creating a new student, click the Program Narration pulldown to choose another language.

l Click on the name of an existing student to see the Advanced Settings, then click Program Narration pulldown to change the language setting.

To change the session time limit:

l When creating a new student, enter your desired time limit in the Session Time Limit box. If you do not want a time limit on your students’ sessions select the No Time Limit radio button.

l Click on the name of an existing student to see the Advanced Settings, then enter your desired time limit in the Session Time Limit box. If you do not want a time limit on your students’ sessions select the No Time Limit radio button.

To modify which Stages are available:

l When creating a new student, select the These Stages radio button under the Stages Available to Student Advanced Setting. Select the stages you want this student to see in Symphony Math.

l Click on the name of an existing student to see the Advanced Settings, then select the These Stages radio button under the Stages Available to Student. Select the stages you want this student to see in Symphony Math.

Do not turn off early stages for new studentsAll students should start at the beginning of the program, Stage 1, and work their way up to their level of challenge. Starting at the beginning of the program allows new students to learn the conventions of the program and ensures that they have the necessary mathematical foundation for the later stages.

To create your class:

1 Click the Class tab from the online Administration Panel.

2 Click Add Class.

3 Enter the class name.

4 Select a teacher.


6 You will be returned to the list of class names where you can see the new class account.

To enroll your students in your class:

1 Click the Class tab from the online Administration Panel.

2 Click on the name of the class you in which want to enroll your students.

3 Select student names to add to the class.

4 Click Add.



Enter name of the class you are creating.

Select the teacher for this class.

Select a student name to add to the class roster. Command click to select mul-tiple names.

Using the Import Tab to Create Student Accounts and ClassesThe Import Tab enables a District Account Admin or a School Account Admin to import multiple stu-

dents from a Comma Separated Value (CSV) file. You can export student lists of student names from

other programs to a CSV file and then import the student information directly into Symphony Math.

This is the most efficient way to set up an entire school or district to use Symphony Math.

To import a list of student names:

1 Click the Import tab from the online Administration Panel.

2 Click Download to download a blank copy of the Import Template.

3 Click Next.

4 Populate the Import File with your school roster information. Save the file when you are done.

5 Click Next.

6 Click the Browse button to select the import file.

7 Click Next.

7 Confirm the Import to make sure the information is correct.

9 Click Import File to complete the import.

10 The final import will be completed only when no errors are found in the import file. If errors are found, a message displays the errors. Edit and save the import file to correct any errors, then retry the import.

11 Click Finish. If successfully imported, a message displays “Import Completed.” This means the import was successful! Click on a tab to view the Students, Teachers, or Classes that have been added.


To automatically create student accounts, teacher accounts and classes, and to enroll students in appropriate classes:

l When following the above import directions be sure to include information for the Teacher, Teacher Email, and Class Name fields. If you do so, Teacher accounts and Classes will be automatically created and the appropriate students will be enrolled in each class.

Field Name

Required Field? Type Max

Length Notes

School YES Number 32 School Account#

Username YES Letters / Numbers 64 Must be unique (no spaces)

Password YES Letters / Numbers 64 No spaces

First Name YES Letters / Numbers 64

Last Name NO Letters / Numbers 64

MI NO Letters / Numbers 2 Middle Initial

Grade YES Letters / Numbers 2 PK, K, or a number 1-13

Teacher NO Letters / Numbers 64

Teacher Email NO Email 64 Must be email address

Class Name NO Letters / Numbers 32

Chapter 04 | Installing Symphony Math 33

IntroductionThe Symphony Math application must be installed on each workstation or on the school file server.

During the installation process you will enter the school account number, username, and password

which will enable the application to connect to the Symphony server over the internet. This allows the

progress of your students to be saved on the Symphony server and reported back to you through the

Symphony Administration Panel that you configured in the previous chapter.

The benefits of this hybrid system allow your students to use a rich, three dimensional graphical in-

terface with supporting sound and narration through the Symphony Math application that resides on

each workstation or the school server. You are able to access student reports and configure student

accounts from the convenience of any Web browser with an active internet connection. Because the

Symphony Math application is installed locally there is no need to transmit sound and graphic files

over the internet, which otherwise could slow down your school’s network performance.

System Requirements

Mac Windows


256 MB RAM 256 MB RAM

16 MB Video acceleration 16 MB Video acceleration

One CPU & video card per student One CPU & video card per student

30 MB available hard-drive space 30 MB available hard-drive space


installing symphony math04

Chapter 04 | Installing Symphony Math34

Download and Install the Symphony Math Application

To download the Symphony Math application:1 Open your web browser and go to the Symphony Math website: www.symphonymath.com.

Click on theDownload link.

2 Click Download.

3 Click on the operating system icon that corresponds to your operating system.

4 Mac users: Open the download file and drag the Symphony Math application file to your Applications folder or to your desktop. Windows users: Run the installation program.


To configure the Symphony Math application:1 Launch the Symphony Math application.

2 Click School to continue the configuration.

3 Enter your Activation Code. This code is available in your setup email, or in the School tab within the online Administration Panel.

4 Click Register to continue the configuration.

5 Choose the type of signin you would you students to use.

Student Sign InIf you select “List of Students” for the signin type students will need to click their name and enter their

password. When they click ‘OK’, their session of Symphony Math will begin. If you choose “Username /


!

Password” students will need to enter the school account number, their username and password. This

option helps prevent students mistakenly choosing the wrong name to signin.

Network Installation InstructionsSymphony Math is designed to be run as a standalone application (installed on each student worksta-

tion), or as a shared application on a network file server. To ensure proper performance, the following

steps should be followed when performing a network installation.

To install Symphony Math on a Windows Server:1 Complete the download, installation, and configuration steps detailed above.

2 Copy the C:\Program Files\Symphony Learning\ directory to the file server.

3 Ensure that permissions are set correctly so that network users can access the program. Permissions can be set by right-clicking on the Symphony Learning folder, choosing Proper-ties, and selecting the Sharing tab. Ensure that your student account has Read and Execute permissions only.

4 Create shortcuts to each student workstation that will point to the Symphony Math applica-tion on the server. In the Symphony Learning folder, right-click the SymphonyMathematics.exe file. Select Create Shortcut.

To install Symphony Math on a Mac Server:1 Complete the download, installation, and configuration steps detailed above.

2 Copy the Symphony Math program (the Symphony blue and yellow icon) to the file server.

3 Set the permissions correctly so that network users can access the program at the same time. This may require the use of Workgroup Manager. For step-by-step directions for differ-ent versions of Workgroup Manager, please see our online documentation available at www.symphonymath.com.

a. Right-click the Symphony Learning folder and select Properties.

b. From the Properties dialog box, ensure the Read-only check box is checked, and press the OK button.

c. If prompted, choose to make the changes for all subfolders and files.

4 Create shortcuts to each student workstation that will point to the Symphony Math blue and yellow icon that you modified in step 3.

To auto update the software on an a network installation:Symphony Math has an auto-update capability that is prohibited across network paths. If client work-stations report seeing an Update Available icon on the login screen, run the Symphony Math program from the local path on the server to download the update.


Set Up the School-To-Home OptionAll customers of Symphony Learning are entitled to use the Symphony Math program outside of

school. Students may have computer access at home, a public after-school program, or a library.

Students use the same Symphony Math program, but use their own unique username and password.

At school, students may see a list where they choose their name. At home, students type the school

account number, their account, username, and password in a signin box. The home login helps to

avoid students mistakenly using another student account.

To send instructions to families about using Symphony Math:1 The Symphony Math Administration Panel can automatically generate “School-to-Home”

letters for your students. The School-to-Home letters contain directions for downloading and installing Symphony Math as well as student signin information. Please see chapter 11, Symphony Math Advanced Settings for more information on how to generate School-to-Home letters for your students.

2 Symphony Learning does not provide phone or email tech support for home users. As the school representative, you are responsible for helping your students with any issues in the installation and use of Symphony Math at home. Please make sure to place your contact information at the top of the School-to-Home template so that families have a way to address any issues in the setup and use of Symphony Math at home.

Home LoginStudents enter the school account number, their username and password.


Chapter 05 | District Set Up 39

Introduction

Symphony Math is a Web-enabled application. The student software program is installed on your

schools’ file server or on each workstation. You will use a web browser to manage student accounts

and review reports. Data from student use of the software program is stored and maintained on a se-

cure server at Symphony Learning. All transactions during use of Symphony Math use SSL encryption

to ensure the best available privacy of student records. Each workstation requires an active Internet

connection (28 kbps or better per workstation) in order to run the Symphony Math software, and the

program is not recommended for sites that do not have reliable Internet access.

If your district has purchased the Symphony Math District Administration Panel you have the capability

to create school accounts and distribute licenses. Your Symphony Math welcome email will indicate if

you have a district account or a school account.

Compatible Web Browsers for Administration Panel

Mac Windows


Safari 2+ Internet Explorer 7+

Firefox 2+ Firefox 2+

district set up05

Chapter 05 | District Set Up40

Configuring the Administration PanelSymphony Math is a Web-enabled program and all student and class data is stored online. The

program is installed on each workstation or on the school server, and student data is transmitted over

the internet to the Symphony Server. For this reason, you can add students and classes before you

install the program. All class and student data is created and modified via an online administration

panel using a Web browser. To login, you must enter your site ID, Username and Password.

If you have not received a Symphony Math Welcome Email, contact Symphony Support at

800.234.3030 or email [email protected].

Logging in to the Symphony Math Administration Panel

To access your administration panel:1 Open your web browser and go to the Symphony Math website: www.symphonymath.com.



4 Click Login.

School LoginButtonClick here to access the administration panel.


Creating School Accounts

To create a School Account:1 Use your District Administrator account number, username, and password to sign in to the

Symphony Administration Panel at www.symphonymath.com.

2 Click the Schools tab from the online Administration Panel.

3 Click Add School. The School Properties window appears.

4 Enter the required information.


To modify the number of concurrent users reserved at each school:1 Use your District Technical Administrator account number, username, and password to sign

in to the Symphony Administration Panel at www.symphonymath.com.


3 Enter the number of concurrent users to the left of each school name.


Each school account that is created can be registered when the Symphony Math student program

is installed and configured. In the example above, six school accounts have been created. At Cush-

ing Elementary, Account Number 1363 and the Username and Password would be used when the

Symphony Math student application is installed.


Creating Student Accounts



3 Enter the student information. Only the first name, username, and password fields are required.


5 You will be returned to the list of student names where you can see the new student account.



SessionTime Limit










l When creating a new student, enter your desired time limit in the Session Time Limit box. If you do not want a time limit on your students’ sessions, select the No Time Limit radio button.


l Click on the name of an existing student to see the Advanced Settings, then enter your desired time limit in the Session Time Limit box. If you do not want a time limit on your students’ sessions select the No Time Limit radio button.




Using the Import Tab to Create Student Accounts and ClassesThe Import Tab enables a District Account Admin or a School Account Admin to import multiple

students from a Comma Separated Value (CSV) file. You can export a list of student names from other

programs to a CSV file and then import the student information directly into Symphony Math. This is

the most efficient way to set up an entire school or district to use Symphony Math.

To import a list of student names:1 Click the Import tab from the online Administration Panel.

2 Click Download to download a blank copy of the Import Template.

3 Click Next.

4 Populate the Import File with your school roster information. Save the file when you are done.

5 Send the completed Import File.

6 Confirm the Import to make sure the information is correct.

7 Click Next.

8 Click the Browse button to select the import file.

9 Click Import File to complete the import.

10 The final import will be completed only when no errors are found in the import file. If errors are found, a message displays the errors. Edit and save the import file to correct any errors, then retry the import.

11 Click Finish. If successfully imported, a message displays “Import Completed.” This means the import was successful! Click on a tab to view the Students, Teachers, or Classes that have been added.


Field Name Required? Type Max .

Length Notes

School YES Number 32 School Account #

Username YES Letters/Numbers 64 Must be Unique, no spaces

Password YES Letters/Numbers 64 No spaces

First Name YES Letters/Numbers 64

Last Name No Letters/Numbers 64

MI No Letters/Numbers 2

Grade YES Letters/Numbers 2 Must be PK,K, or number 1-13

Teacher No* Letters/Numbers 64

Teacher Email No* Email 64 Must be proper email address

Class Name No* Letters/Numbers 32

* If you add information for the Teacher, Teacher Email, and Class Name fields, teachers and classes

will automatically be created, and students will be enrolled in those classes. You must include

information for all three fields.

Installing the Symphony Math ApplicationThe Symphony Math application must be installed on each workstation or on the school file server.

During the installation process you will enter the school account number, username and password

which will enable the application to connect to the Symphony server over the internet. This allows

the progress of students to be saved on the Symphony server and reported back to you through the

Symphony Administration Panel that you configured in Chapter 2.

The benefits of this hybrid system allow your students to use a rich three dimensional graphical in-

terface with supporting sound and narration through the Symphony Math application that resides on

each workstation or the school server. You are able to access student reports and configure student

accounts from the convenience of any Web browser with an active internet connection. Because the

Symphony Math application is installed locally there is no need to transmit sound and graphic files

over the internet, which otherwise could slow down your school’s network performance.


System Requirements

Mac Windows







Ensuring Student Access to the Symphony Web ServersSymphony Math stores student data on secure internet servers. If your school has internet filtering

software that restricts access to internet sites, you will need to ensure that the Symphony data serv-

ers are allowed access to and from student workstations.

The Symphony Math student program must have access to the following URLS:

https://qs1221.pair.com (IP address: 216.92.2.55)


https://admin.symphonylearning.com (IP address: 216.92.223.130)

http://www.symphonylearning.com (IP address: 64.130.42.165)

Add the URLs above to your “acceptable” list of URLs to allow student data to be sent to and from the

Symphony Learning server.


Deciding Between Local and Network Installation

Symphony Math can be installed as a standalone program (on each student workstation) or as a

shared application on a network file server. Both methods have advantages, and your installation type

should be decided by choosing the method that works best for your technology and implementation

plan for Symphony Math.

Standalone Installation Advantages Network Installation Advantages

Little impact on the school network traffic. No disk space required at student workstations.

Allows custom graphics settings at the workstation level. Settings changes made to server install affect all users.

Staff members can change settings without access to school server.

Program updates only need to be applied to the server, rather than to each workstation.

To install Symphony Math as a standalone application on each workstation:

1 Log in to the workstation as an administrator or user that has permission to install programs.

2 Go to www.symphonymath.com.

3 Click the Download link.

4 Choose your operating system to download the program installer.

5 Follow the onscreen directions to install Symphony Math.

6 Run the program one time, and register the school account information.

To install Symphony Math on a network:First, follow the steps above to download, install, and configure Symphony Math on your network’s

server.

1 Copy the entire C:\Program Files\Symphony Learning\ folder to a network location. Macintosh OS X: copy the Symphony Math icon to a network location.

2 Ensure that the Symphony Learning folder gives students Read and Execute permissions. On Novell Servers, give students ‘Read and Filescan’ permissions.

3 Create a shortcut to the Symphony Math program from the Symphony Mathematics.exe icon (on Windows) or the Symphony Math icon (OS X).

4 Copy the shortcut to each workstation.

Chapter 06 | Installing Symphony Math at Home 47

Introduction

Congratulations! Your school has purchased Symphony Math, which entitles your child to use the

Symphony Math software at home. During the installation process you will enter the school account

number, username, and password which will enable the application to connect to the Symphony

server over the internet. This allows your child’s progress to be saved on the Symphony server and

reported to your child’s school. Symphony Learning does not provide technical support to home users.

If you have misplaced your child’s login information or if you have questions about Symphony Math,

contact your child’s school.

System Requirements

Mac Windows







installing symphony math at home06

Chapter 06 | Installing Symphony Math at Home48

Download and Install the Symphony Math Application

To download the Symphony Math application:

1 Open your web browser and go to the Symphony Math website: www.symphonymath.com.

2 Click Download.

3 Click on the operating system icon that corresponds to your computer.

4 Mac users: Open the download file and drag the Symphony Math application file to your Applications folder or to your desktop. Windows users: Run the installation program.

Click on theDownload link.

Chapter 06 | Installing Symphony Math at Home 49

To configure the Symphony Math application:

1 Launch the Symphony Math application.

2 Click Home to continue the configuration.

3 Enter your School Account Number, Username, and Password.

4 Click Save to complete the Configuration process.

Student Signin

Each time students start a Symphony Math session, they will need to enter their password. When they

click the green checkmark, their session will begin.

Home Login Students enter

their username and password.

Chapter 06 | Installing Symphony Math at Home50

Chapter 07 | Using Symphony Math 51

Introduction

After the Symphony Math program has been installed on each workstation (or the school file server)

and the student accounts have been created using the online administration panel, your students can

begin using the program.

The Student Signin ScreenTo begin using the Symphony Math application:

1 Launch the Symphony Math program from your desktop or dock. If the Symphony Math icon is not visible, locate it in your Program Files folder (Windows) or Applications folder (Mac).

2 Direct your students to locate their name in the student list and click on it.

3 Direct your students to type their passwords and click OK.

Alpha ScrollSelect a letter to scroll the list of student names.

Volume ControlClick to increase program volume. Con-tinue clicking to decrease.

Refresh ButtonClick to refresh the list of student names. Classes

Pulldown Click to limit the list of student names to a specific class.

Name Selec-tion Window Student se-lects her name to sign in to the program.

Settings ButtonClick to access the Settings screen.

Exit ButtonClick to quit the program.

using symphony math07

Chapter 07 | Using Symphony Math52

If you do not see a list of students names, and instead see a prompt for account number, usera-

name and password, students will need to enter that information each time they use the program.

To narrow the list of names in the Name Selection Window:

l Use the Classes Pulldown to select your class name. This will reduce the list to only students enrolled in your class, making it easier for students to find their name.

To automatically scroll the list of names to those starting with a specific letter:

l Click the letter in the alphabet above the student list that corresponds to the first name of the student. Or, use the keyboard to type the first letter of the first name.

To refresh the list of student names in the Name Selection Window:

l Click the refresh button at the top right of the list of student names. You may need to do this if you recently created a new student account but that account is not showing in the Name Selection Window.

To exit the sign-in screen and quit Symphony Math:

l Click the EXIT button at the top right corner of the screen.

The Student Scoreboard ScreenThe Student Scoreboard screen is designed to show students where they are in the Symphony Math

program. Students begin and end each session at the Scoreboard screen. Students click the Go but-

ton to begin their Symphony Math session.

To see the name of the stage that the student is currently working on:

l View the Overall Progress indicator at the bottom of the screen. To see the stage name, place the cursor on the stage number.

Volume ControlClick to in-crease program volume. Con-tinue clicking to decrease.

BadgesStudents earn badges for each Stage they complete.

Current Stage Progress Shows percentage complete in the current stage.

Overall Progress Shows Stages completed.

Progress OverTime Button

Exit ButtonClick to return to the Sign In Screen.

Go ButtonClick to begin the session.

MasteryPoints Indicator

RankingsButton


To see how far a student has progressed through the program:

l View the Current Stage Progress indicator at the bottom of the screen.

To see the number of mastery points a student has earned:

l Refer to the box towards the bottom right of the scoreboard.

To see how far a student has progressed through the current stage:

l View the Current Stage Progress indicator at the bottom of the screen.

To see the student’s Progress Over Time Graph:

l Click on the graph icon at the top left of the screen. A graph will appear that shows the progress of the student through the stages relative to the time she has used the program.

To see the current ranking of a student:

l Click the Rankings button at the top of the screen.

To begin a Symphony Math session:

l Click the Go Button.

To return to the Sign-in Screen:

l Click the EXIT Button at the top right corner of the screen.

The Thinking Round

After the student clicks on the Go Button, she will be brought to the Thinking Round. There are five

activities in the Thinking Round. The emphasis is on thoughtful problem solving in an untimed setting.

Students are automatically branched between the five activities in a way that helps them make con-

nections between different mathematical representations.

Students complete nine tasks in the Thinking Round. For every correct answer they earn additional

time in the Mastery Round. Student progress can be tracked by viewing the Status Window. Each

correct answer will be indicated with a green light. A problem solved with one incorrect attempt will

be displayed in yellow. A problem solved with multiple incorrect attempts will be shown in orange. If a


student is moving quickly through a stage because they are answering most questions correctly, they

may see less than 9 problems in the Thinking Round.

To adjust the volume setting:

l Click on the headphones icon. Each click increases the sound, and then decreases the sound.

To quickly obtain student status:

l View the Status Window. Mostly green indicator lights indicate excellent progress. Two or three yellow lights indicates the student is at their challenge level. Four or more yellow or orange lights indicates that the student may be struggling and the program will automatically reduce the level of challenge.

To exit the Thinking Round and return to the Student Scoreboard:

l Click the EXIT Button at the top right of the screen.

Volume ControlClick to increase pro-gram volume. Continue clicking to decrease.

Flashing AreaRepresent missing values that must be filled by the student.

Check ButtonWill become active once a problem has been com-pleted.

Help ButtonClick to receive help.

Directions But-ton Click to hear directions.

Exit ButtonClick to return to the Sign In Screen.

Null ButtonClick this button when there are no valid solu-tions.

Status Window BranchingIndicator

The Branching Indicator

Symphony Math has four different branching modes. The Branching Indicator shows which mode is

currently active. If the student answers problems incorrectly the branching speed is reduced. Succes-

sive correct answers can increase the branching speed.


Mode

Problems per Stage % Review

Problems

Audio Feedback for Correct

Answers

Visual Feedback for Correct

Answers

Increase Branching

Mode

Decrease Branching

ModeMastery StandardThinking Mastery

Placement

4-8 4-10 0% No No Beginning of each stage

2 incorrect responses 80% Correct

Skim

20-40 20-40 0% Yes No Beginning of each session

2 incorrect responses 80% Correct

Learning

60+ 60+ 10% Yes Yes

5 correct responses in a

row to move into Skim mode

3 incorrect in last 6

response80% Correct

Remediation

120+ 120+ 30% Yes Yes

4 of 6 correct responses to

move into Learn-ing mode

-

Mastery cannot be

achieved in Remediation

mode

The Help Button

Students can ask the program for help by pressing the life saver icon at the top right corner of the

screen. Clicking the Help Button will provide students with some scaffolding that will make the

problem less complex or lead students toward a solution. Clicking the Help Button also signals the

program that the student is at a good level of challenge and it will slow down the branching so that the

level of challenge for the next problem will not increase. If a student presses the Help Button several

times the next problem will be easier. The Branching Button will be deactivated if the student engages

it for three problems in a set of nine problems.

To activate automatic help:

l Click the life saver icon below the EXIT button.

To hear the directions again:

l Click the thought bubble icon below the Help Button.

To hear the story problems:

l Click the Read to Me Button.

Read to Me Button Click this button to hear the story problems.


The Mastery Round

After solving nine problems in the Thinking Round the student is brought to the Mastery Round. In

the Mastery Round students are challenged to solve number sentences in five seconds or less. Only

number relationships and concepts that have been mastered in the Thinking Round are introduced

in the Mastery Round. This avoids the problem of requiring students to memorize what they do not

understand.

In the Mastery Round students will solve symbols problems and auditory problems. Students must

consistently solve number sentences in a limited amount of time (between 5 and 12 seconds) in order

for mastery to be achieved and to move ahead in the program.

TimerWhen the timer expires the round ends.

Branching ModeIndicatorIndicates the branching speed.

Exit ButtonClick to return to the Scoreboard.

Volume ControlClick to in-crease program volume. Con-tinue clicking to decrease.

The Mastery Round ends when the Timer has counted down to zero. Following the Mastery Round a

new series of nine tasks in the Thinking Round begins. During a typical 20-minute session, a student

will complete three nine-problem series in the Thinking Round and three Mastery Rounds.

Chapter 08 | The Symphony Dashboard 57

Overview of the Dashboard

The Symphony Math Dashboard is a formative assessment tool that provides you with the most im-

portant information about your students’ use of Symphony Math. Are your students using Symphony

Math often enough? Are they making progress? Does anyone need your help with a specific concept?

These are the questions that you can answer quickly by consulting the Dashboard.

There are three components to the Dashboard. The colored gauges in the Status Over Past Four

Weeks section provide a quick status update of all of your students. Green gauges indicates that

everything is progressing well. Red indicates that there are issues that need to be addressed, such

as students needing to use the program more often or who need help with specific concepts. Yellow

indicates borderline issues. The Overall Status section provides summary statistics for your students’

use of Symphony Math. The progress over time graphs show the progress of students relative to the

time they have used the program.

the symphony dashboard08

Chapter 08 | The Symphony Dashboard58

GroupPulldowns

Selectors allow Dashboard to narrow to a specific school, class, or grade.

Status Over Past Four Weeks

Indicate the status of students using Symphony Math.

Help Button Provides

explanation of Dashboard issues and sug-gests remedies.

Progress OverTime Graphs

Indicates stu-dent progress relative to time on task.

PDF Button

You can log in to your Dashboard on a regular basis to see how your students are progressing. If all

the gauges are green then there are no issues that you need to address.

To access your Dashboard:1 Open your web browser and go to the Symphony Math website: www.symphonymath.com.



If you do not have a Symphony Math Username and Password, please contact your School Technical

Administrator.

Status Over Past Four WeeksThe Dashboard gauges reflect the status of students using Symphony Math over the past four weeks.

This ensures that your gauges are reflecting the recent status of your students. A student who has

not used Symphony Math in the past four weeks will not be included in the gauges. If your students

do not use Symphony Math during a vacation the Dashboard will reflect this with more red in the Use

gauge. However, once students return to school and their regular Symphony Math use schedule the

gauge will soon return to green. The gauges reflect recent changes in your students’ use of Symphony

Math.


The Dashboard CategoriesThe gauges are organized around five key measurements. These measurements are explained in the

table below and represent topics of concern that teachers most want to track for their students.

Measurement Teacher Concern

Use Are students using Symphony Math the minimum recommended time of 45 minutes per week?

Progress Are students progressing through the program, or have they become stuck?

Help Do any students need help?

Reading Are students reading the story problems independently, or are they pressing the read-to-me button to have the story problems read to them?

Software Do any students need to have the Symphony Math software updated on their computer?

Understanding the Gauges

Use GaugeThe Use Gauge indicates what proportion of your students are using Symphony Math the minimum

recommended time of 45 minutes per week. The green area on the gauge indicates the proportion

of students that have used the program 45 minutes per week or more over the past four weeks. The

yellow area indicates the proportion of students that have used the program between 35 and 45

minutes per week over the past four weeks. The red area indicates the proportion of students that

have used the program less than 35 minutes per week over the past four weeks.

Progress GaugeThe Progress Gauge indicates whether all of your students are making progress in Symphony Math.

Green indicates the proportion of students that are making minimum progress or better. Yellow

indicates the proportion of students that have mastered only one concept in the past four weeks. Red

indicates the proportion of students that have not mastered any concepts in the past four weeks and

may not be making adequate progress.


Help GaugeThe Help Gauge indicates the proportion of your students who need help with Symphony Math. The

green portion represents those students who do not need help. The yellow portion is for students

who have solved more than 200 problems for a concept but have not yet mastered it. The red portion

indicates the proportion of students who have completed more than 250 problems for a concept and

have not mastered it.

Reading GaugeThe Reading gauge indicates the proportion of students who are pressing the Symphony Math button

to have the story problems read to them. Typically these are the non-fluent readers. This gauge helps

you see how many of your students are relying on the computer to read the story problems to them.

The green area of the gauge indicates the proportion of students who are pressing the Read To Me

Button less than one out of every two story problems. The yellow indicates those who are pressing

the Read To Me Button between about every two story problems. The red indicates students who are

pressing the Read To Me Button at least once for every story problem.

Software GaugeThe Software Gauge indicates the proportion of students who need to update the software on the

computer they used. Green indicates the proportion of students who used the most recent version of

the Symphony Math software. Yellow indicates students who used a version of Symphony Math that

is lacking small bug fixes and refinements. Red indicates students who used software that is a major

version older than what is currently available. These students do not have access to major improve-

ments and new components of the curriculum.


How to Remedy Common Implementation IssuesA red portion of a dashboard gauge means there is an issue that needs to be addressed. Clicking on

the gauge itself will link you to the Group Alerts Report which will provide the name or names of the

students who have the identified issue. We suggest the following remedies as interventions that can

address the issues identified in the Symphony Dashboard.

To remedy a red Use Gauge:

l Schedule more Symphony Math sessions each week.

l Inquire with the parents if Symphony Math can be used at home.

l Explore after-school or before-school use opportunities.

To remedy a red Progress Gauge:

l Students who are making slower progress than other students could benefit from using the program an extra session or two each week.

l Look at a student’s progress report to identify which concepts the student is working on and provide additional instruction and practice aside from the computer. Explore opportunities to use Symphony Math outside of school.

l Sit with the student and watch him or her use Symphony Math. Are they being distracted by other students? Are there parts of the instructions they do not understand? Ask them to explain to you what they are doing and why. Make sure they are on task, understand the directions, and feel good about their work.

l Are they using Symphony Math often enough? Look at the Use Alert Tab on your dashboard to see if the student appears as an alert for low use. If the student is listed in red or yellow on the Use tab that means they are not using Symphony Math the minimal 45-minutes a week

and this has contributed to their slow progress.

To remedy a red Help Gauge:

l Watch students use Symphony Math. If students seem frustrated (or says they are), they should stop using the program.

l The Alerts Report for Help will indicate the concept with which the student needs help. Off-computer instruction and practice can be provided.

l After additional instruction has been provided and the student has taken a break from using the program, he or she can begin using the program again to see if she is better prepared to

progress.

To remedy a red Software Gauge:

l Update the Symphony Math software to the most current version.


!

The Overall Status Statistics

Category Metric

Schools: The number of schools in the district with a Symphony Maths license.

Grades: The number of grades that have students enrolled in Symphony Math.

Classes: The number of classes that have students enrolled in Symphony Math.

Enrolled Students: The number of students that are enrolled in Symphony Math.

Active Students: The number of enrolled students that have used Symphony Math in the last four weeks.

Inactive Students: The number of enrolled students that have not used Symphony Math in the last four weeks.

Average Sessions: The average number of times students have used Symphony Math.

Average Time: The average length of each Symphony Maths session.

Average Stage: The average stage number that students have achieved in Symphony Maths.

Mastery Index: The percent of students that have completed the program (grade three students and above) or have mastered their respective grade level stages (k through grade 2 students).

Students with Alerts: The percentage of students that have an active alert. Click on the number to link to the Alerts Report.

Staff Logins Per Week: The average number of times staff members have logged in to the Symphony Math Administration Panel.

The data on the dashboard reflects the information for the schools, grades or classes that are selected in the group pull down selectors above the gauges.

Understanding the Progress Over Time GraphsThe Progress Over Time Line Graph displays the average progress for a group of students as well

as their average weekly use. The left vertical axis reflects the seventeen stages of the program. The

horizontal axis indicates the weeks of the year. The line graph shows the upward movement of the

group through the weeks of the year. The bars correspond to the right vertical axis which indicates

average weekly use. If the average weekly use is the minimum recommended 45 minutes or more it

will be shown with a green bar. If the average weekly use is less than the minimum recommended 45

minutes it will indicated by a red bar.


The Progress Over Time Scatter Plot provides a visual representation of where students are in Sym-

phony Math, in terms of the current stage the student is working on and the amount of time invested

in the program. At the district level dots represent specific classes of students using Symphony Math.

The dot indicates the average stage the class is working on and the average amount of time spent

using the program. At the school level the dots represent specific students.

Dots to the far right represent classes or students that have spent more time using the program. Dots

to the far left represent classes or students that have spent less time using the program. Dots towards

the top represent classes or students who have made the most progress, while dots towards the bot-

tom represent classes or students that have made less progress.

To see the class or student name of a specific dot on the scatter plot:

l Place your mouse arrow over the dot for several seconds. A window will appear that shows the name of the class or student, the number of concepts mastered, and the hours of use.

To see more detailed information about a student represented by a specific dot:

l Click on the dot. A report window will open up with detailed information about the progress of the class or student through Symphony Math.


Other Important Dashboard Features

GroupPulldowns

Selectors allow Dashboard to narrow to a specific school, class, or grade.

Help Button Provides

explanation of Dashboard issues and sug-gests remedies.

PDF Button

To see data for a specific school:

l Use the pulldown selector for school at the top of the Dashboard to limit the students included in the display to a specific school. For example, to see data only for ‘Meadow Elementary’ set the school pulldown selector to ‘Meadow Elementary.’ the data will reload and then show only information about students from ‘Meadow Elementary.’

To see data for a specific grade:

l Use the pulldown selector for grade at the top right of the Dashboard to limit the students included in the display to a specific grade. For example, to see data only for third grade students set the grade pulldown selector to grade three. The data will reload and then show only information about grade three students.

To see data for a specific class:

l Use the pulldown selector for class at the top right of the Dashboard to limit the students included in the display to a specific class. For example, to see data only for class “2A”, set the class pulldown selector to 2A. The data will reload and then show only information about the students in class 2A that have been using Symphony Math.

To see how many students are included in the Dashboard analysis:

l Refer to the Status bar in the top left corner of the Dashboard. The Status bar reveals how many students have used Symphony Math in the past four weeks. Only student who have used the program in the past four weeks will be included in the Dashboard.

To get more help on the Dashboard:

l Select the question mark icon at the top right corner of the Dashboard to open the Dash-board Help File.

Chapter 09 | Reports 65

Overview of ReportsThe Reports tab can generate eleven different reports. Five Student Reports provide detailed informa-

tion about a specific student. Four Group Reports provide information about a list of students from

a class, grade, or school. Two School Reports compare summary information from different groups,

such as classes in a school or grades in a district. Use the report selector pull down menus at the

top of the Reports screen to choose the report you need. Reports data is compiled in real time and

reflects the most recent use of Symphony Math by your students. The reports are designed to provide

you with the information you need to monitor implementation, guide classroom instruction, and docu-

ment student progress and areas of need.

reports09

Chapter 09 | Reports66

Eleven Symphony Math ReportsThere are eleven different Symphony Math reports. The purpose of each report is explained below.

Report Purpose

School Status Summarizes the status for multiple groups of students.

School Alerts Compares the number of Dashboard Alerts for different groups of students.

Group Status Provides a list of all students in a specified group with their overall use, progress, and status.

Group Concepts Displays a list of students from a defined group with a visual representation of their progress through the stages and concepts of Symphony Math.

Group Alerts Report Summarizes the Dashboard Alerts for a group of students.

Group Progress Graph Graphically displays the progress and use of Symphony Math of a group of students.

Student Concepts Provides concept-by-concept information on the progress of a specific student through the Symphony Math stages and concepts.

Student Daily Progress Displays the session-by-session details of the use of Symphony Math by a specific student.

Student Number Relationships Reports the proficiency of a specific student with each number relationship addressed in Symphony Math.

Student Progress Graph Graphically displays a specific student’s progress and use of Symphony Math.

Home Report Summarizes student progress for parents.

Selecting ReportsUse the report selector pull downs and the create report button to generate your report.

To generate a report:1 Click the Category menu and select the category of report you would like to generate.

2 Click the Report menu and select the type of report.

3 Click the Group menu and select the group or student for your report.

4 The progress reports and graphs allow you to specify the date range for the data in your report. Select the start and end dates or use the default dates.

5 Click the Create Report button.


ReportPulldowns

Select the type of report and the grade or class.

Create Report Button After selecting report and defining your group click this button to create your report.

School ReportsThere are two school reports that facilitate the tracking and understanding of the implementation of

Symphony Math in a district or within a school. The School Status Report provides basic implementa-

tion, use and progress data for schools in a district, grades within a school, or classes within a grade.

The School Alerts Report enables a high level view of the percentage of students using Symphony

Math that have alerts, or issues that may need to be addressed. Please see Chapter 8, The Symphony

Dashboard for an explanation of the alerts.

School Report HeadersEach school report has a header that summarizes the data for the group you have selected. The

first section of the header, under the Use heading, provides basic use data for the students in the

defined group. This data includes the number of students enrolled in Symphony Math, the total use

time and the first and last session. The next section is a summary of the status information for the

selected group. The status information only includes students who have used the program in the last

four weeks. It includes the percentage of students with alerts, and the percent of students using the

minimum recommended amount (45 minutes a week). The last section is under the Progress heading.

The Mastery Index reports the percentage of selected students that have mastered the appropriate

stages for their grade. The average stage provides the average current stage for all of the selected

students. The Mastery Index and average stage date include all of the selected students, whether they

have used Symphony Math in the past four weeks or not.


School Status ReportThis report summarizes the status for multiple groups of students using Symphony Math. Use the

selectors at the top of the page to select all of the classes in a grade, all of the grades in a school, or

all of the schools in a district. The report provides basic summary data of use and progress. The green

Student Use bar indicates the percentage of students who have been using Symphony Math the mini-

mum required amount (45 minutes per week). The blue Mastery Index bar indicates the percentage

of students that have achieved mastery of foundational math concepts in the program appropriate for

their grade level.

Click on a column to sort the data by that variable.

Click on a group name for more informa-tion.

Use the Help button to view column heading explanations.

Use the PDF button to gener-ate a PDF that you can print, save, or email.

To sort the data in the report by a specific variable:

l Click on the column heading to sort the data by that variable. Click again to reverse sort. For example, clicking on the Use column sorts the data by bringing the students with the lowest amount of use to the top of the list. Clicking the Use column heading again brings the

students with highest amount of use to the top of the list.

To sort the data in the report by multiple variables:

l Hold down the shift key while selecting the columns by which you would like to sort.

The table below provides an explanation for each of the columns from the School Status Report:


Column Definition

Group The name of the school, grade or class.

Students The number of students in the selected group that have been enrolled in Symphony Math.

Time The total time the group has used Symphony Math

First The date of the first Symphony Math session.

Last The date of the most recent Symphony Math session.

Last 4 Weeks –Active Students

The number of students in the selected group that have used Symphony Math in the last four weeks.

Last 4 Weeks – Stu-dents with Alerts

The percentage of students in the selected group that have used in the last four weeks and have alerts.

Last 4 Weeks – Student Use

The percentage of students in the selected group that have used Symphony Math at least 45 minutes per week.

Mastery Index The percentage of students in the selected group that have mastered all stages for their grade level. For students in grade three and above this means completing the program.

Average Stage The current average stage in Symphony Math for all students in the selected group.


School Alerts ReportThis report compares the number of Dashboard Alerts for different groups of students. The groups

could be a classes, grades, or schools. The report displays the percentage of students with alerts for

Use, Progress, Help, Reading and Software. You can click on the name of a group in the left column to

go to the Group Alerts Report for that specific group and see lists of the specific students with details

on the nature of their alerts.


Click on a group name for more informa-tion.

Use the Help button to view column heading explanations.

Use the PDF button to gener-ate a PDF that you can print, save, or email.

The table below provides an explanation for each of the columns from the School Status Report:

Column Definition

Group The name of the school, grade or class.

Students The number of students in the selected group that have been enrolled in Symphony Math.

Active Students The number of students in the selected group that have used Symphony Math in the past four weeks.

Use Alerts The percentage of students that are not using Symphony Math the minimum recom-mended time of 45 minutes per week?

Progress Alerts The percentage of students that have not mastered a concept in the past four weeks.

Help Alerts The percentage of students that need help with a specific concept in Symphony Math.

Reading Alerts The percentage of students that are not reading the story problems independently. They are pressing the read-to-me button to have the story problems read to them.

Software Alerts The percentage of students that need to have the Symphony Math software updated on their computer.


Group ReportsThere are four group reports that provide information on a group of students in list form. The group

may consist of students from a specific class, grade, or school. For example, a group report on a class

will display a list of all students in the class.

Group Report Headers

Each group report has a header that summarizes the data for the group you have selected. The first

section of the header, under the Total Use heading, provides information such as the average amount

of time each student has use Symphony Math, the date of the first session, the date of the most

recent session, and the average number of sessions for each student. The next section, Status over

Past Four Weeks, corresponds to the Dashboard indicators. Ideally your Dashboard indicators for Use,

Progress, help, Reading, and Software will be green. The last column in the group header indicates

the average current stage for all students in the group.


Group Status ReportThe Group Status Report provides summary and status data for each student in the group. The first

four columns provide general use data such as total use time and the most recent date of use. The

next five columns provide a status update using colored icons. The colored icons correspond to the

colors used in the Dashboard (see chapter 4). A student with a row of five green icons does not have

any Symphony Math issues that need to be addressed. A yellow or red icon indicates that there is

or may be an issue to address, such as not using the program often enough or needing help with a

specific concept.


Click on a student name for more information.

Column heading explanations are available by pressing help button.

Scroll over a data field to get more detail.

To sort the data in the report by a specific variable:

l Click on the column heading to sort the data by that variable. Click again to reverse sort. For example, clicking on the Use column sorts the data by bringing the students with the lowest amount of use to the top of the list. Clicking the Use column heading again brings the

students with highest amount of use to the top of the list.

To sort the data in the report by multiple variables:

l Hold down the shift key while selecting the columns by which you would like to sort.


The table below provides an explanation for each of the columns from the Group Status report:

Column Definition

Student The name of the student.

Time The total time using Symphony Math, in hours:minutes format.

First The date of the first session.

Last The date of the most recent session.

Sessions The total number of sessions.

Last 4 Weeks - Use

Green - The student has been using the program for 45 minutes a week or more over the last four weeks.

Yellow - The student has been using the program between 35 and 44 minutes a week over the past four weeks.

Red - The student has been using the program for less than 35 minutes a week over the past four weeks.

Last 4 Weeks - Progress

Green - The student has mastered two concepts or more over the past four weeks.

Yellow - The student has mastered one concept over the past four weeks.

Red - The student has not mastered a concept over the past four weeks.

Last 4 Weeks - Help

Green - The student does not need teacher help with any Symphony Math concept.

Yellow - The student has completed 200 problems for one concept and has not yet mastered it.

Red - The student has completed over 250 problems for one concept and has not yet mastered it. The student needs teacher help with the concept.

Last 4 Weeks - Reading

Green - The student is reading the story problems independently.

Yellow - The student is pressing the Read To Me Button for the story problems one time for every other story problem.

Red - The student is pressing the Read To Me Button one time or more for each story problem.

Last 4 Weeks - Software

Green - The student used the most recent version of Symphony Math during their last use of the program.

Yellow - The student used a version of Symphony Math that is lacking small bug fixes and refine-ments.

Red - The student used a version of Symphony Math that is a major version older than what is currently available.

Current Stage

The scope and sequence of Symphony Math is organized into stages. The student’s progress is reported by stage. For a detailed breakdown of the student’s progress through the stages select the Student Concepts Report. The higher the stage the further along a student is through the program.


Group Concepts ReportThe Group Concepts Report provides a visual summary of each student’s progress through the stages

and concepts of Symphony Math. A green icon means a student has mastered that concept. A yellow

icon means a student is working on the concept. A red icon indicates a student needs help with the

concept.

Click on the top arrow to expand or collapse all of the stages.

Click on an arrow to see the concepts.

Scroll over an icon to see more detail.

To expand a stage and view stage detail data:

l Click the arrow to the left of the stage you would like to expand or collapse.

To expand or collapse all stages:

l Click on the top most arrow to the left of the Stage column.


The table below provides an explanation for each of the columns from the Group Concepts report:

Column Definition

StageThe scope and sequence of Symphony Math is organized into stages. The student’s progress is re-ported by stage. Each stage consists of a number of concepts. Click the arrow to the left of the stage to see each concept for that stage. Click the top most arrow to expand (and then collapse) all stages.

Status

Indicates the current status of the student with the specific concept or stage.

Not Started: The student has not worked on this concept or stage. The student will encounter this stage when the preceding stages have been mastered.

Skipped: The student has skipped this concept because he or she is providing mostly correct answers and has mastered subsequent concepts that are more advanced than the skipped concept. It is not possible to skip stages. Only concepts can be skipped.

Mastered: The student has mastered this concept or stage. Mastery generally means an 80% or better success rate with the concept.

Working On: The student is currently working on this concept or stage and has not yet mastered it.

Needs Help: The student has completed more than 250 problems for this concept and has not mastered it. The student likely needs additional instruction on this concept. If the student needs help on Stage 1 he or she may not have a sufficient foundation to use Symphony Math.


Group Alerts ReportThe Group Alerts Report summarizes all of the Dashboard Alerts for a group of students. The group

could be a class, grade, school or district. Alerts for Use, Progress, Help, Reading and Software are

displayed. The details column indicates how many students have the specific issue indicated by the

alert. Selecting the arrow in the left column expands the row and shows all of the students with the

issue.


Click on an arrow to see the concepts.

To see a list of students for each alert category:

l Click on the arrow in the left column to expand the section.

The table below provides an explanation for each of the columns from the Group Alerts report:

Column Definition

Alert The Dashboard category

Details The number of students in the selected group that have an alert for the listed category.


Group Progress GraphThe Group Progress Graph illustrates the rate of progress for a group of students. You can use this

report to look at the progress over time for a specific class, grade, school or district. The line with blue

dots indicates the average Symphony Math Stage for the group on a specific date. The bars represent

the average weekly use for the group. Green bars indicate that the group achieved minimum use for

the week. Red indicates that less than the required minimum use was achieved.

The line graph tracks the stu-dent’s progress through the stages of the program.

Scroll over a dot to see more details for that session.

Green and red bars indicate the amount of use per week in minutes.

To view sessions for a specific date range:1 Click on the left date window below the report selector pulldown at the top left of the screen.

2 Enter the start date or use the pop-up calendar to select the date.

3 Repeat for the end date using the right date window.

4 Click Create Report

To see more informiaton on a specific session:

l Scroll over a dot on the graph. A pop-up window will appear with the session details for that

date.


Student Concepts ReportThe Student Concepts Report provides a detailed look at the progress through the stages and con-

cepts of Symphony Math for a specific student. For each stage and concept the report reveals what

has been mastered, what the student is still working on, and the concepts with which the student

needs help. The report also details how many problems the student has solved for a specific concept

or stage. The number of problems solved is an indicator of how much work a student needed to

master a specific concept.

Data is also provided regarding the average for the grade level of the student. The average for the

grade provides a reference point or peer group to compare the progress of the student. The percent-

age of students in the grade level of the student that have mastered the specific stage or concept is

also provided as another peer group comparison.

To expand a stage and view concept level data:

l Click the arrow to the left of the name of the stage you would like to expand.


l Click the top most arrow to the left of the Stage column.

To see more detail on a Fluency concept:

l Click the name of the Fluency concept (in blue type) and a Number Relationship report will appear for that concept.


Header provides summary and status informa-tion.

Click on anarrow for a stage to see more detail.




Click on the stage arrow to expand

or collapse the stage.

Click on the fluency concept

name to see the Number

Relationships Report.

The table below provides an explanation for each of the columns from the Student Concepts Report:

Column Definition

Stage

The scope and sequence of Symphony Math is organized into stages. The student’s prog-ress is reported by stage. Each stage consists of a number of concepts. Click the arrow to the left of the stage to see the student’s status with each concept for that stage. Click the top most arrow to expand (and then collapse) all stages.

Example An example of the type of problem that can be found within this stage.

Grade Level

Each stage and concept is given a grade level according to the guidelines found in the NCTM Curriculum Focal Points. Please note that many of the problems presented in Symphony Math take concepts to a deeper level than the typical math curriculum or framework.

Status

Shows the percentage of students at this school in this student’s grade that have mastered the concept:

Not Started: The student has not worked on this concept or stage. The student will encoun-ter this stage when the preceding stages have been mastered.





Problems SolvedThe number of problems a student has solved for this concept or stage. The number of problems solved indicates how much work a student had to complete in order to master a concept.

Grade Average - Mastery

The percentage of students in the same grade that have mastered this concept or stage. This only includes students from the same school, in the same grade, that have been enrolled in the Symphony Math program.

Grade Average - Problems Solved

The average number of problems solved for students in the same grade that have mas-tered this concept or stage. A student who has mastered a concept with fewer problems solved than the grade average is progressing faster than his or her peers. A student who is working on a concept or has mastered a concept with more problems solved than the grade average is progressing slower than his or her peers.


Student Daily Progress ReportThe Student Daily Progress Report provides a detailed summary of each session a student has used

Symphony Math. The report displays the session date, length of the session in minutes, and the

concepts with which the student worked. For each concept the student worked on the number of

problems is reported for that session as well as the overall number of problems solved from all ses-

sions for that concept.

The arrow next to the stage label can be selected to collapse the details for each session. This will

then provide you with a condensed list of the session dates and durations for the specific student.

Click on the top arrow to expand or collapse all of the sessions.

Date selection windows to define date range.

Click on an arrow for a session to collapse or expand it.






4 Click Create Report.

To expand a session and view session level data:

l Click the arrow to the left of the date of the session you would like to expand or collapse.

To expand or collapse all sessions:



The table below provides an explanation for each of the columns from the Student Daily Progress

report:

Column Definition

Stage

The scope and sequence of Symphony Math is organized into stages. The student’s progress is reported by stage. Each stage consists of a number of concepts. Click the arrow to the left of the stage to see the student’s status with each concept for that stage. Click the top most arrow to expand (and then collapse) all stages.

Date The date the session took place and the length of the session in minutes.

Example An example of the type of problem that can be found within this stage.

Grade LevelEach stage and concept is given a grade level according to the guidelines found in the NCTM Curriculum Focal Points. Please note that many of the problems presented in Symphony Math take concepts to a deeper level than the typical math curriculum or framework.

Status

Shows the percentage of students at this school in this student’s grade that have mastered the concept:

Not Started: The student has not worked on this concept or stage. The student will encounter this stage when the preceding stages have been mastered.





Problems Solved - Session The number of problems a student has solved for this concept during this session.

Problems Solved - Overall

The number of problems a student has solved for the concept in all Symphony Math sessions to date.


Student Number Relationships ReportThe Student Number Relationships Report displays the students’ progress with Symphony Math mas-

tery round activities. These are timed activities where the student must answer the number sentence

correctly in five seconds or less in order to demonstrate mastery. Only the stages displayed within

this report have mastery rounds that require students to answer correctly within five seconds or less,

therefore you will not find all 17 stages represented in the report. Number relationship fluency data is

available for addition, subtraction, multiplication, division, and fractions problems. Stages that do not

require fluency for mastery are those focused on place value and multi-digit addition and subtraction.


Click on the stage arrow to expand or collapse the stage.

Scroll overa number relationship to get more detail.

To expand a stage and view stage detail data:

l Click the arrow to the left of the date of the session you would like to expand or collapse.




Click on the stage arrow to expand or collapse the stage.

Scroll over a number relation-ship to get more detail.

The table below provides an explanation for each of the columns from the Student Number Relation-

ships report:

Column Definition

Stage

The scope and sequence of Symphony Math is organized into stages. The student’s progress is reported by stage. Each stage consists of a number of concepts. Click the arrow to the left of the stage to see the student’s status with each concept for that stage. Click the top most arrow to expand (and then collapse) all stages.

Status

Indicates the current status of the student with the specific number relationship.

Not Started/Skipped: The student has not worked on this number relationship. A student skips number relationships when he or she demonstrates consistent mastery of number relationships that are of greater difficulty.

Mastered: The student has mastered this number relationship. Mastery generally means 80% or better success rate with a number relationship.

Working On: The student is currently working towards mastery on this number relationship.

Needs Help: The student has completed more than 250 problems for the group of number relationships without mastery. This number relationship has a high number of repetitions without mastery. The student likely needs additional instruction on this concept. If the student needs help on Stage 2 number relationships he or she may not be able to work fast enough to solve Symphony Math fluency problems.


Student Progress Graph

The Student Progress Graph illustrates the rate of student progress over time. A steep upward line

moving from left to right indicates quick progress through the stages of the program. The vertical axis

represents the stages of the program. The horizontal axis represents calendar time.




4 Click Create Report.

To see more information on a specific session:

l Scroll over a dot on the graph. A pop-up window will appear with the session details for that date.

The line graph tracks the student’s progress through the stages of the program.

Green and red bars indicate the amount of use per week in minutes.

Chapter 10 | Managing User Accounts 85

Staff Access

There are five different levels of access available to perform administrative functions within the Sym-

phony Math Administration Panel. Each level of access has a varying degree of ability to view reports

and manage student accounts, classes, and licenses.

l District Administrative: The District Administrator can manage all student, teacher, class,

and administrator accounts, and access can distribute licenses among campuses within the

district and import external lists of students to create accounts. The District Administrator

is usually the technical administrator for the district, the person who is responsible for the

installation, setup, and maintenance of Symphony Math throughout the district.

l District Read Only: The District Read Only Administrator has read-only access at the district

level. This person can run reports of all students and classes within the district, but cannot

create or delete accounts or manage licenses. This person is usually a Title One director,

curriculum coordinator, or math coach for the district.

l School Administrative: The School Administrator can manage all student, teacher, class,

and administrator accounts within the school and can import external lists to create ac-

counts. This is the highest level of access within a school. Typically this is the person who is

responsible for the installation, setup, and maintenance of Symphony Math at your school.

Every school account must have at least one School Administrator.

l School Read Only: The School Curriculum Administrator can access reports for all students

and classes within the school but cannot create or delete accounts. This person is usually

the principal, curriculum director or math coordinator for the school.

l Class Access: Teachers can access their own classes and students and can generate

reports. Teacher accounts have the ability to create student accounts and enroll students into their classes. Teachers may not delete student accounts but can remove students from

their classes.

managing user accounts10

Chapter 10 | Managing User Accounts86

Tab

Function

District Admin

District Read Only

School Admin

School Read Only

Class Access

Schools Create School Accounts a

Distribute Licenses a

Modify School Properties a a

Students View All Student Ac-counts a a

View My Student Ac-counts a

Create Student Accounts a a a

Delete Student Accounts a a

Promote Students to Next Grade a a

Modify Student Accounts a a

Modify My Student Accounts a

Classes View Classes a a a a a

Create Classes a a a a a

Modify Classes a a a

Modify My Classes a

Delete Classes a a a a

Staff View Staff Accounts a a a

Create Staff Accounts a a a

Modify Staff Accounts Properties a a a

Delete Staff Accounts a a

Reports Access Reports for All Students a a a a

Access Reports for My Students a a a a a

Import Import Students a a

Support Access Support Features a a a a a


Managing School Accounts Within a DistrictIf your district has purchased the Symphony Math District Administration Panel, you have the capa-

bility to create school accounts and distribute licenses in addition to all of the other administrative

features of Symphony Math. Your Symphony Math welcome email will indicate whether you have a

district account or a school account.

Available LicensesWill be used by schools on a first come basis.

To create a School Account:1 Use your account number, username, and password to sign in to the Symphony Administra-

tion Panel at www.symphonymath.com. You must have District Administrative access to create school accounts.


3 Click Add School. The School Properties window appears.



To modify a School Account:1 Use your account number, username, and password to sign in to the Symphony Administra-

tion Panel at www.symphonymath.com. You must have District Administrative access to modify school accounts.


3 Click the name of the school you would like to modify. The School Properties window ap-pears.

4 Enter your changes.



!

To modify the number of concurrent user licenses at each school:1 Use your account number, username, and password to sign in to the Symphony Administra-

tion Panel at www.symphonymath.com. You must have District Administrative access to modify the number of concurrent user licenses at each school.


3 Enter the number of concurrent users to the left of each school name.


The unassigned licenses listed in the available row will be automatically used by the first school that runs over their assigned amount. If all of the licenses are left in the available row they will be used by each student in the district on a first come first serve basis. To ensure that a specific school will have at least a certain number of licenses you can allocate a specific number for that school.

Creating Staff Accounts

District Administrative account:

l A District Administrative staff account is created by Symphony Learning. The school account number, username, and password will be sent from Symphony Learning in a welcome email. If you have not received the welcome email please contact Symphony Learning Technical Support at 800-234-3030 ext. 2 or [email protected]

To create a Staff Account:1 Use the District Administrative account number, username, and password to sign in to the

Symphony Administration Panel at www.symphonymath.com.

2 Click the Staff tab from the online Administration Panel.

3 Click Add Staff. The Staff Properties window appears.


5 Choose the administrative access level.



!

To delete a Staff Account:1 Use your Administrative account number, username, and password to sign in to the Sym-

phony Administration Panel at www.symphonymath.com.


3 Click the check box next to the staff member you would like to delete.

4 Click Delete.

Every school account must have at least one staff member with administrative access.

To modify a Staff Account:1 Use your Administrative account number, username, and password to sign in to the Sym-

phony Administration Panel at www.symphonymath.com.


3 Click the name of the staff member you would like to modify. The Staff Properties window appears.

4 Enter the your changes.


Managing Student Accounts



3 Enter the student information. Only the first name, username, and password fields are required.


5 You will be returned to the list of student names where you can see the new student account.




SessionTime Limit






To modify a Student Account:1 Click the Students tab from the online Administration Panel.

2 Click the name of the student you would like to modify. The Teacher Properties window ap-pears.







l When creating a new student, enter your desired time limit in the Session Time Limit box. If you do not want a time limit on your students’ sessions, select the No Time Limit radio button.

l Click on the name of an existing student to see the Advanced Settings, then enter your desired time limit in the Session Time Limit box. If you do not want a time limit on your

students’ sessions select the No Time Limit radio button.


To enable student rankings:

l Select the ‘show student rank’ check box to allow students to see their worldwide ranking in the Symphony Math program.




To delete student accounts:1 Click the Students tab from the online Administration Panel.

2 Click the check box next to the student name you would like to delete.

3 Click Delete.

To recover deleted student accounts:1 Click the Students button.

2 From the More Actions pull down select “Recover Deleted Students”.

3 Click the checkbox next to the name of the student(s) you would like to recover.

4 Click the “Recover Deleted Students” button at the bottom right.


Managing Classes

To create your class:1 Click the Class tab from the online Administration Panel.

2 Click Add Class.

3 Enter the class name.

4 Select a teacher.


6 You will be returned to the list of class names where you can see the new class account.

To enroll your students in your class:1 Click the Class tab from the online Administration Panel.

2 Click on the name of the class you in which you want to enroll your students.

3 Select student names to add to the class.

4 Click Add.



Enter name of the class you are creating.

Select the teacher for this class.

Select a student name to add to the class roster. Command click to select mul-tiple names.

To modify a Class:1 Click the Class tab from the online Administration Panel.

2 Click the name of the Class you would like to modify. The Class Properties window appears.



To modify the properties for all students in a class:1 Click the Class tab from the online Administration Panel.

2 Click the name of the Class you would like to modify. The Class Properties window appears.

3 Click the Change Settings for Entire Class button. The Student Properties window appears.

4 Enter your changes.


To delete Classes:1 Click the Classes tab from the online Administration Panel.

2 Click the check box next to the class name you would like to delete.

3 Click Delete.


Chapter 11 | Symphony Math Advanced Settings 95

Introduction

The Symphony Math program offers advanced settings to modify the display settings, video, or sound

drivers and to provide access to other controls.

Settings Panel

To access the Settings Panel:1 Launch the Symphony Math program from your desktop or dock. If the Symphony Math icon

is not visible locate it in your Program Files folder (Windows) or Applications folder (Mac).

2 Click on the Settings button at the top left of the signin screen.

Settings ButtonClick to access the Settings screen.

symphony math advanced settings11

Chapter 11 | Symphony Math Advanced Settings96

Account Information

The signin screen will function differently depending on what type of account information is entered.

If a District Administrator enters the District Activation Code, the login screen will first ask students to

select their school, then their name. If the School Activation Code is entered, the login screen will only

display student names for that specific school.

Activation Codes can be found within the online Administration Panel. For school accounts, the

Activation Code is found by clicking the School tab. For district accounts, the district Activation Code is

displayed on the Schools tab, and individual school Activation Codes can be displayed by clicking on a

school name.

The signin process will function differently depending on what type of account information is entered

If a District Activation Code is entered, the login screen will first ask students to select their school,

then their name. If a School Activation Code, the login screen will only display student names for that

specific school.

To enter a new Activation Code:1 Click the Account icon.

2 Type an Activation Code.

3 Click Save.

Settings IconsClick on an icon to access settings.

Exit ButtonClick to quit the program.

Enter Activation Code.

Settings forAutomatic Updates.

Run session inDemo Mode.

To modify Automatic Updates settings:

l Click the checkbox for “Download and Install Updates” to automatically check for updates at program launch and to download and install them when available.


l Click the checkbox for “Download Beta Versions” to participate in the Symphony Math beta program. When a beta version of Symphony Math is available it will be automatically down-

loaded and installed.

To run Symphony Math in Demo Mode:

l Demo Mode enables you to view a specific stage, concept, or activity. No data is saved from using the program in Demo Mode. Demo Mode is used to access a specific type of problem for use on an interactive whiteboard in front of the whole class or in a one-to-one tutoring session.

l Click the Demo Mode button to begin. Click the Demo Control button to access the Demo Control.

Student Settings

To modify Student Password settings:

l Click the checkbox for “Password-Protect Program Exiting” to require the teacher or adminis-trator password in order to exit the program. This feature prevents students from exiting the Symphony Math program to access other programs or the internet.

l Click the checkbox for “Require Student Passwords at Signin” to require students to enter their password when they click on their name at the signin screen.

To modify the Signin style for students:1 Click the Students icon.

2 Click either List of Students or Username / Password.


Network SettingsSymphony Math will attempt to use the default proxy settings for each computer on which it is run. In

some cases it may be necessary to provide custom settings.

To use a Proxy Server:1 Click the Network icon.

2 Click on the “Use Proxy Server” checkbox.

3 Enter Address, Port, UserName, and Password.

4 Click Save.

To require individual student usernames and passwords:

l Click the “Ask For Username/Password Each Use” checkbox. This feature is useful if your school has student-level security settings that allow internet access.

Graphics and Sound SettingsWhen the Fullscreen mode is on, Symphony Math resizes the desktop resolution to match the

program display size of 1024x768. When the Fullscreen mode is off, the program runs in a window

centered on the monitor, with the remainder of space blacked out.

To run the program in Fullscreen Mode:1 Click the Graphics / Sound icon.

2 Click the checkbox for “Run in Fullscreen Mode”.


Symphony Math allows three levels of graphics quality. The Best and Better options run the Symphony

Math program in a 1024x768 display window, with the Best option providing a little more quality on

some Windows machines with very modern video cards. The Good (Smaller Window) option runs

Symphony Math in an 800x600 window. This option is useful for netbooks or other computers that

cannot run in 1024x768 resolution.

To modify the Graphics Quality:1 Click the Graphics / Sound icon.

2 Click the Graphics Quality pulldown menu to select an option.

3 Click Save.

The Symphony platform supports several 3D driver sets, including OpenGL (all platforms), DirectX7.0

(Windows only), and Software (all platforms). If you experience problems with program performance

(program crashes, mouse slowness, screen anomalies, etc.), follow the steps below.

To modify Video or Sound Drivers:1 Click the Graphics / Sound icon.

2 Select a different video and/or sound driver from the Video Driver or Sound Driver pulldown menu.

3 Click Save.


Administration

The Symphony Administration Panel is available at www.symphonymath.com. The Administration tab

provides quick navigation to the Administration Panel.

To open the Administration Panel in your web browser from the Symphony Math program:1 Click the Administration icon.

2 Click Open Admin Panel.

Chapter 12 | Technical Troubleshooting 101

Symphony Math uses a hybrid architecture. Students use the Symphony Math program itself, which

is downloaded and installed. Teachers and administrators use an online Administration Panel. Any

technical issues you might encounter will most likely occur in the initial setup and configuration of this

system. This chapter is devoted to solutions to these issues.

Ensuring Student Access to the Symphony Web Servers

Symphony Math stores student data on secure internet servers. If your school has internet filtering

software that restricts access to internet sites, you will need to ensure that the Symphony data serv-

ers are allowed access to and from student workstations.

To allow student data to be sent to and from the Symphony Learning server, add these URLs to your

list of “acceptable” URLs:



https://admin.symphonylearning.com (IP address: 216.92.223.130)

http://www.symphonylearning.com (IP address: 64.130.42.165)

technical troubleshooting12

Chapter 12 | Technical Troubleshooting102

Deciding Between Local and Network Installation

Symphony Math can be installed as a standalone program (on each student workstation) OR as a

shared application on a network file server. Both methods have advantages, and your installation type

should be decided by choosing the method that works best for your technology and implementation

plan.

Standalone Installation Advantages Network Installation Advantages

Little impact on the school network traffic No disk space required at student workstations

Allows custom graphics settings at the workstation level Settings changes made to server install affect all users

Staff member can change settings without access to school server.

Program updates only need to be applied to the server, rather than to each workstation

To install Symphony Math as a standalone application on each workstation:

1 Log in to the workstation as an administrator or user that has permission to install programs.

2 Go to www.symphonymath.com.

3 Click the Download link.

4 Choose your operating system to download the program installer.

5 Follow the onscreen directions to install Symphony Math.

6 Run the program one time, and register the school account information.

To install Symphony Math on a network:First, follow the steps above to download, install, and configure Symphony Math on your network’s

server.

1 Copy the entire C:\Program Files\Symphony Learning\ folder to a network location. Macintosh OS X: copy the Symphony Math icon to a network location.

2 Ensure that the Symphony Learning folder gives students Read and Execute permissions. On Novell Servers, give students ‘Read and Filescan’ permissions.

3 Create a shortcut to the Symphony Math program from the Symphony Mathematics.exe icon (on Windows) or the Symphony Math icon (OS X).

4 Copy the shortcut to each workstation.

Importing Students, Teachers, and Classes

The best way to add a large group of students to the Symphony Learning roster is through the Import

tab in the Symphony Administration Panel. This feature allows you to upload a formatted template

that contains information on students, teachers, and class assignments.


To import Students, Teachers, and Class information:1 Log in to your Symphony Administration Panel.

2 Click the Import tab.

3 Download the Import Template file, a comma-separated (CSV) file that contains the proper fields necessary for import.

4 Open the Import Template using a spreadsheet program such as Microsoft Excel. Add the information to the file. The first row of the Import Template file contains field headings. Your finished import template file MUST contain the same first line as shown below:

l If you choose to not include optional fields, leave them blank in the template.

l If you add information for the Teacher, Teacher Email, and Class Name fields, teachers and classes will automatically be created, and students will be enrolled in those classes. You must include information for all three fields.

5 Make sure you are logged in to the Symphony Administration Panel, and are at Step 3 of the Import tab. Click Browse, and a prompt will ask you to locate the Import File that you saved in Step 3. Note: In most cases, this file will be located on the Desktop, where most files are placed by default when downloaded, from Step 3.

6 Review the Import Information. If the information is correct, click Finish to complete the import. If the information is not correct, click Previous to return to the previous step.

Field Name Required? Type Max .

Length Notes

School YES Number 32 School Account #

Username YES Letters/Numbers 64 Must be Unique, No spaces

Password YES Letters/Numbers 64 No spaces

First Name YES Letters/Numbers 64

Last Name No Letters/Numbers 64

MI No Letters/Numbers 2

Grade YES Letters/Numbers 2 Must be PK,K, or number 1-13

Teacher No* Letters/Numbers 64

Teacher Email No* Email 64 Must be proper email address

Class Name No* Letters/Numbers 32


Fixing Program Slowness, Crashes, and Error Messages

Symphony Math uses a 3D rendering engine. The Symphony Math platform supports several 3D

driver sets, including OpenGL (all platforms), DirectX7.0 (Windows only), and Software Rendering (all

platforms). The program defaults may cause a conflict on certain workstations.

To switch the 3D driver, follow these steps:1 Start Symphony Math.

2 At the signin screen (list of names), click Settings in the upper left area of the screen.

3 Click the Graphics/Sound tab.

4 Choose the first available option from the Video Driver pull-down menu.

Choose a video driver to replace the program defaults.

Back Button

5 Go back to the signin screen by selecting the back button at the to left of the screen. Enter the program as a student and select any activity from the menu. If the problem is not resolved, repeat steps 2-4 with the other Video Drivers available in the list above.

If none of the drivers above produce desirable results, an updated driver may be necessary. A full

explanation and description of troubleshooting steps is available at the following address:

http://www.adobe.com/support/director/work_3d/optimizing_performance/optimizing_

performance04.html


Symphony Math Automatic Updates

Symphony Math attempts to automatically update the program when updates become available.

Automatic updates are easy to activate. Just launch the Symphony Math program on your computer.

As long as you are connected to the internet and have permission to change files on your computer,

Symphony Math will automatically download and install the update.

A Symphony Math automatic update is downloaded and installed during program startup.

In some cases, school computers may be “locked down” to prevent students from making unwanted

changes to the computer. In these situations, the Symphony Math update can only take place when

someone signs in to the computer as the “Administrator” and then launches the Symphony Math

program. Signing in to the computer as “Administrator” will allow the Symphony Math update to occur

when the program is launched.

If you encounter problems during the update process, it may be easiest to perform a full reinstall

of the Symphony Math program. The latest version of Symphony Math is always found on at www.

symphonymath.com. No student records will be affected by a program reinstall.

Symphony Math School-to-Home Use

Symphony Math provides an easy way for students to use the program outside of the school day.

When Symphony Math is installed for the first time, a message directs users to choose whether they

are working at school or at home:

The choice made in this message affects how students will sign in when they use Symphony Math on

this computer. The School signin allows students to choose their name from a list of students, while


the Home signin requires the student to enter their username and password. The School signin helps

facilitate quick entry into the program, while the Home signin helps to protect student’s privacy.

School SigninStudents choose their name from a list of students.

Home SigninStudents type their username and password.

To help families get started in using Symphony Math at home, a School-to-Home template is avail-

able in the Documentation section of the Symphony Math web site. This document can be opened

in Microsoft Word and filled out with the appropriate school and student information. When filled out

properly, this document will provide families the information they need to get started with the program

at home.

For EACH student who will receive the instructions, customize the School-to-Home template. DO NOT

PROVIDE YOUR OWN USERNAME AND PASSWORD. Instead, provide the student’s username and

password, which can be found on the Students tab in the Online Administration Module.

Symphony Learning does not provide phone or email tech support for home users. As the school

representative, you are responsible for helping your students with any issues in the installation and

use of Symphony Math at home. Please make sure to place your contact information at the top of the

School-to-Home template so that families have a way to address any issues in the setup and use of

Symphony Math at home.

Contacting Support

Please use the information below to contact Symphony Learning technical and product support:

Phone: 1 (800) 234-3030 ext. 2, 9 AM - 5 PM (EST)

Fax: 1 (800) 234-3030

Email: [email protected]

Please note that Symphony Learning does not provide phone or email tech support for home users.

Home users should contact your school for support with Symphony Math.

Chapter 13 | Preparing for a New Year 107

The Symphony Administration Panel provides tools to quickly prepare your school or district adminis-

tration panel for the new school year. The instructions below are for schools and districts that used

Symphony Math in the previous school year.

We recommend that all students start Symphony Math over from the beginning after the summer va-

cation. If students have not used the program in the past four weeks it is best if they start again from

Stage 1. If they truly understand the concepts they worked through during the previous school year

they will move quickly through those stages. When they reach their challenge level they will automati-

cally shift to a slower branching mode.

Students who did not fully comprehend some concepts in Symphony Math will get the chance to work

through those concepts again by starting from the beginning. We have found that students who start

the program over from Stage 1 after a four week or longer vacation will ultimately progress faster than

students who pickup where they left off.

preparing for a new school year13

Chapter 13 | Preparing for a New Year108

Option 1: Delete All Students and Re-Import School Roster1 Log in to your Administration Panel as the Account Administrator.

2 Remove all students from the Roster.

a Click the ‘Students’ button.

b Click the top checkbox to select all students.

c Click the ‘Delete’ button

3 Import a new Student Roster using the ‘Import’ button. See Chapter 3 for more information.

Option 2: Update the Existing School Roster1 Log in to your Administration Panel as the Account Administrator.

2 Remove all students from their assigned classes:

a Click the ‘Classes’ button.

b Click the top checkbox, which will select all classes.

c Select ‘Remove Enrollment’ from the ‘More Actions:’ dropdown menu.

3 Delete unwanted student accounts from the ‘Students’ button.


b Click the checkbox next to each student that has left the school or who will no longer be using Symphony Math.

c Click the ‘Delete’ button.

Chapter 13 | Preparing for a New Year 109

4 Promote all students to the next grade:


b Click the top checkbox, which will select all students.

c Select ‘Promote to Next Grade’ from the ‘More Actions:’ dropdown menu.

5 Reset all student progress


b Click the top checkbox, which will select all students.

c Select ‘Reset Student Progress’ from the ‘More Actions:’ dropdown menu.

6 Add new students individually from the ‘Students’ button or in a group from the ‘Import’ button. See chapter 3 for more information on creating new student accounts.

7 Enroll students in classes by using the ‘Classes’ button. See chapter 3 for more information.

Chapter 13 | Preparing for a New Year110

Chapter 14 | Frequently Asked Questions 111

Using Symphony Math

Q I see that the topics taught in Symphony Math fall mostly within our kindergarten through grade four

curriculum. However, some of the problems look very challenging and the concepts are taught to a

deep level. Is it appropriate to use the program with older students who do not have a solid math

foundation?

A Yes, Symphony Math may be used with older students. The program is designed with an age neutral

interface that does not use cute cartoon characters or childish themes that make older students feel

the program is inappropriate. Symphony Math addresses fundamental math skills that struggling

students need to master in order for mathematics to be meaningful. The program has been used with

middle-school and high-school students in remedial settings.

Q For how long and how often do you recommend that a student use Symphony Math?

A We recommend 15- to 20-minute sessions three to five times a week. We recommend that students

not be permitted to use the program more than 30 minutes in any one day.

Q I see that Symphony Math uses number bars. Why not use a different color for each number bar to

help students distinguish them?

A Our research led us to use the blue and yellow bars instead of having a different color for each bar for

two reasons. The first is that children who have color perception difficulties are not able to easily use

a program with 10 different colors on the computer screen. The second reason is that with bars that

frequently asked questions14

Chapter 14 | Frequently Asked Questions112

have a unique color for each size bar, we found some students rely mostly on verbal memory of the

color relationships of the bar and do not consider the length of the bars.

For example, some students memorize the color combinations, so that when you ask them to find two

bars that equal ten, they know that yellow plus yellow equals orange, but they may not understand

why. The length of each bar is the important mathematical property to which the student needs to at-

tend. We find that with the Symphony number bars students are more focused on the relative lengths

of the bars and thus focused on the key variable of quantity.

Q I find it interesting that you do not have any counting chips, or dots in your program to help students

count their way through the numbers. Why is this?

A One of the key developmental barriers Symphony Math is designed to help students overcome is the

transition from solving math problems by counting-on, to solving math problems by number concep-

tualization. Most students first solve 5+3 by counting “1, 2, 3, 4, 5 . . .” and then counting on three

more, “6, 7, 8.” Subtraction is handled in a similar way by counting down. This is an inefficient and

unreliable strategy for older students, though it is an important developmental accomplishment in

kindergarten. Unfortunately, the sight of third and fifth graders still counting up and counting down

is too prevalent and poses a major barrier to their advancement in math. Number bars are one of

the few concrete representations (or manipulatives) that help students develop number conceptu-

alization. The number bars provide a model to students that five is “five.” Five is not “1, 2, 3, 4, 5”.

Three is “three.” Five plus three is eight. It is not “1, 2, 3, 4, 5 . . . 6, 7, 8.” The counting chips and

other discontinuous representations reinforce the counting strategy. The number bars introduce and

reinforce the number conceptualization strategy which is more efficient and helpful for effective math

learning in the higher grades, especially with fractions.

Q Why don’t the bars have lines marking off each unit?

A We could put lines on the bars that would indicate each unit of the bar. The seven bar could have

equally spaced lines along the bar that divide it into seven equal sections. Similarly, we could have

added lines to the three bar to divide it into three equal sections. To solve the problem 3+7 the

student would only need to count the 10 sections on the two bars to arrive at the answer. While this is

an effective and important strategy at an early stage in math learning, Symphony Math is designed to

help students move beyond the counting strategy to number conceptualization. With Symphony Bars,

the student combines the three and the seven bars and then finds the bar that is the same length.

The students see qualitatively that three and seven equal ten without relying exclusively on counting

strategies.

Q Do we have to use number bars in our classroom?

A Symphony Learning does not sell hands on versions of the blue and yellow numbers bars. It is not

required for students to practice with blue and yellow bars in the classroom in order to progress with

the program. We do recommend that students use a wide variety of concrete representations in their

core curriculum.


Q I noticed the program only uses number bars. Why not use many different representations, such as

cubes, ten frames, counting chips, etc?

A We agree with math experts who advocate a math curriculum that is rich with multiple representa-

tions. Weights on a balance scale, a number line, and dominoes are all examples of powerful math-

ematical representations to help students understand math. Symphony Math is a complementary pro-

gram that offers an additional representation and is not intended to be the only representation used

in a comprehensive and rich math curriculum. Symphony Math allows students to see systematically

how one representation can be used for learning many concepts - such as addition, multiplication,

and fractions - with the same representation. By using the same representation for a variety of math

concepts, students can see a visual model that shows how these concepts are connected.

Q I noticed that Symphony Math does not have the usual cartoon characters, music, and narratives

that I have seen in other educational software. Won’t kids get bored without those cute multimedia

experiences?

A The Symphony Math philosophy is that children are innately curious about their world and if we design

a learning environment that presents mathematical concepts in an interesting and developmentally-

appropriate manner, they will be engaged by these patterns and relationships and will not need

unrelated stories, characters, or music to maintain their interest. We believe children are intrinsically

motivated to learn about math and Symphony Math is designed to tap into this capacity.

Q Why is the program called Symphony Math?

A A “symphony” is something characterized by a harmonious combination of elements. Commonly this

is associated with music. The integration of all of the different instruments in a symphony orchestra is

one example. In the name Symphony Math, the term refers to the goal of our design philosophy which

is to integrate a variety of teaching approaches and methods into one harmonious learning experi-

ence for each student. Some students need to explore concepts. Some need to work on mastering

number relationships. Others need to work on applying their conceptual knowledge. Symphony Math

is designed to evaluate a student’s needs and coordinate a variety of learning environments and

teaching strategies to provide an appropriate and enjoyable learning experience.

Q In other educational software programs our school has used, the instructions are more explicit and

even show the student exactly what to do or how to solve the problem. All the student has to do is

copy what they were shown. Why does Symphony Math not model and explain exactly what students

are supposed to do?

A One of the most important skills in math is problem solving. In order to be able to apply what they

have learned and to solve novel mathematical problems, students must develop the disposition of

active thinkers who identify problems and seek out their solutions. Many of the learning tasks in

Symphony Math are presented as puzzles that need to be “figured out.” Students find satisfaction in

making these connections without being told in advance exactly how to solve the puzzle. The program


does provide scaffolding in the form of instructional feedback when errors are made and in the form

of a Help Button that can be selected for a clue that will lead the student a step closer to the answer.

Q Why doesn’t Symphony Math teach all of the different math strands and benchmarks required

by my state standards? Topics like time, money, and data do not seem to be taught in depth in

Symphony Math.

A The pedagogical premise of Symphony Math is that many students struggle with mathematics

because they do no have an in-depth understanding of the big ideas of mathematics (please see

Chapters 1 and 2). Symphony Math is designed to provide students with understanding of the most

important math concepts. Research has shown that an in-depth understanding of these big ideas of

math leads to improved performance on a variety of math topics. Your students should continue to

be taught all of the topics and benchmarks they are required to know. Concurrently they can receive

extra practice with Symphony Math on some of the most important and difficult-to-master founda-

tional concepts.

Q Why do you recommend that students restart the program after summer vacation or other breaks?

Won’t they have to repeat a lot of material they have already covered?

A We recommend that if a student has not used Symphony Math for four weeks or longer she start

the program from the beginning. Chapter 3 of this guide details how to reset students accounts. We

have found through our research that most students will progress more quickly overall if they start

Symphony Math from the beginning instead of continuing where they left off. If a student truly has in-

depth mastery of the concepts she worked on in Symphony Math the first time, then she will quickly

move through those concepts and return to her challenge level. However, if a student was merely

beginning to make important connections but did not develop in-depth mastery, those weaknesses

will be identified as she moves through the program a second time.

Symphony Math Installation & Setup

Q Is Symphony Math an Internet program?

A Symphony Math is a web-enabled application. The student software program is installed on the

schools’ file servers or on each workstation. Teachers and administrators use a web browser to

manage student accounts and review reports. Data from student use of the Symphony Math program

is stored and maintained on a secure server at Symphony Learning. All transactions during use of

Symphony Math use SSL encryption to ensure the best available privacy of student records. Sym-

phony Math is not recommended for sites that do not have reliable Internet access.


Q How much bandwidth does the Symphony Math program require?

A Each workstation that uses Symphony Math requires an active Internet connection (28 kbps or

better per workstation). Symphony Math requires about 100 Kilobytes (KB) of bandwidth for a typical

20-minute student session.

Q How do I decide whether to install Symphony Math on each workstation or on the school file server?

A Symphony Math can be installed on each workstation or on a school file server. There are advantages

to each type of installation. Installing on each workstation requires very little resources from the

school network, and allows custom settings for each installation. Installation on the school file server

simplifies program updates and settings changes for all students. Your decision should be based on

the speed of the school network and the need for customized settings for individual machines.

Q Can my students use Symphony Math at home?

A Yes, your students can use Symphony Math at home. See Chapter 5 for more information on install-

ing Symphony Math at home.

Symphony Math Administration Panel

Q Why am I missing some features of the Administration Panel that I need, like deleting a student or

teacher?

A There are different levels of access available to perform administrative functions from the online

Administration Panel. Each level of access has a varying degree of ability to control students, classes,

and other functions. In order to delete students, you must login as a Symphony Math Account

Administrator. For a full description of the levels of administration access, please see Chapter 10 of

this guide.

Contacting Technical Support

Symphony Learning tech support is available to school staff.

Toll-free: (800) 234-3030 ext.2

Fax: (800) 234-3030

email: [email protected]


Appendices 117

Appendix A: Symphony Math Scope & Sequence

# Stage Concept Example

1a Number Sense Equal 3 = ?

1b Number Sense Greater 8 > ?

1c Number Sense Less 5 < ?

1d Number Sense Between 4 < ? < 9

1e Number Sense Missing Comparison 2 ? 5 ? 7

1f Number Sense Not equal 7 ≠ ?

2a Introduction to Addition & Subtrac-tion Introduction to Addition Fluency 1 + 2 = ?

2b Introduction to Addition & Subtrac-tion Introduction to Addition 2 + 1 = ?

2c Introduction to Addition & Subtrac-tion Introduction to Missing Addend Fluency 1 + ? = 3

2d Introduction to Addition & Subtrac-tion Introduction to Missing Addend 2 + ? = 3

2e Introduction to Addition & Subtrac-tion Introduction to Subtraction Fluency 3 - 2 = ?

2f Introduction to Addition & Subtrac-tion Introduction to Subtraction 3 - 1 = ?

2g Introduction to Addition & Subtrac-tion

Introduction to Missing Subtrahend Fluency 3 - ? = 2

2h Introduction to Addition & Subtrac-tion Introduction to Missing Subtrahend 3 - ? = 2

3a Ones, Tens & Hundreds Introduction to 1s 1 + 1 + 1 + 1 = 4

Appendices

Appendices118


3b Ones, Tens & Hundreds Compose 1s 4 + 5 = 9

3c Ones, Tens & Hundreds Decompose 1s ? + 5 = 9

3d Ones, Tens & Hundreds Comparing 1s 9 > 6

3e Ones, Tens & Hundreds Introduction to 10s 10 + 10 +10 + 10 = 40

3f Ones, Tens & Hundreds Compose 10s 40 + 50 = 90

3g Ones, Tens & Hundreds Decompose 10s ? + 50 = 90

3h Ones, Tens & Hundreds Comparing 10s 90 > 60

3i Ones, Tens & Hundreds Introduction to 100s 100 + 100 + 100 = 300

3j Ones, Tens & Hundreds Compose 1s/10s/100s 400 + 500 = 900

3k Ones, Tens & Hundreds Decompose 100s ? + 500 = 900

3l Ones, Tens & Hundreds Comparing 100s 900 > 600

4a Intermediate Addition & Subtraction Intermediate Addition Fluency 5 + 4 = ?

4b Intermediate Addition & Subtraction Intermediate Addition 5 + 6 = ?

4c Intermediate Addition & Subtraction Intermediate Missing Addend Fluency 5 + ? = 9


4d Intermediate Addition & Subtraction Intermediate Missing Addend 5 + ? = 11

4e Intermediate Addition & Subtraction Intermediate Missing Addends ? + ? = 11

4f Intermediate Addition & Subtraction Intermediate Subtraction Fluency 9 - 5 = ?

4g Intermediate Addition & Subtraction Intermediate Subtraction 11 - 5 = ?

4h Intermediate Addition & Subtraction Intermediate Missing Subtrahend 11 - ? = 6

4i Intermediate Addition & Subtraction

Intermediate Missing Subtrahend Fluency 9 - ? = 4

4j Intermediate Addition & Subtraction

Intermediate Missing Subtrahend And Minuend ? - ? = 6

5a Two-Digit & Three-Digit Numbers Composing Two-Digit Numbers 3 + 30 = ?

5b Two-Digit & Three-Digit Numbers Decomposing Two-Digit Numbers ? + 30 = 33

5c Two-Digit & Three-Digit Numbers Comparing Two-Digit Numbers 45 < ? < 60

5d Two-Digit & Three-Digit Numbers Composing Three-Digit Numbers 300+40+1=?

5e Two-Digit & Three-Digit Numbers Decomposing Three-Digit Numbers ? + 300 + 40 = 341

5f Two-Digit & Three-Digit Numbers Comparing Quantity W/ Three-Digit Numbers 542 > ? > 498

6a Advanced Addition & Subtraction Advanced Addition Fluency 8 + 5 = ?

6b Advanced Addition & Subtraction Advanced Addition 9 + 8 = ?

Appendices 119


6c Advanced Addition & Subtraction Advanced Missing Addend 9 + ? = 17

6d Advanced Addition & Subtraction Advanced Missing Addend Fluency 8 + ? = 13

6e Advanced Addition & Subtraction Advanced Subtraction

6f Advanced Addition & Subtraction Advanced Subtraction Fluency 13 - 5 = ?

6g Advanced Addition & Subtraction Advanced Missing Subtrahend Fluency 13 - ? = 8

6h Advanced Addition & Subtraction Advanced Missing Subtrahend 17 - ? = 9

7a Adding & Subtracting One-Digit Numbers Adding One Digit Numbers 5 + 4 = ?

7b Adding & Subtracting One-Digit Numbers Missing Addend One Digit Numbers 5 + ? = 9

7c Adding & Subtracting One-Digit Numbers Subtracting One Digit Numbers 9 - 4 = ?

7d Adding & Subtracting One-Digit Numbers Missing Subtrahend One Digit Numbers 9 - ? = 5

7e Adding & Subtracting One-Digit Numbers

Adding One Digit Numbers With Regrouping 8 + 9 = ?

7f Adding & Subtracting One-Digit Numbers

Missing Addend One Digit Numbers With Regrouping 8 + ? = 17

7g Adding & Subtracting One-Digit Numbers

Subtracting One Digit Numbers With Regrouping 12 - 8 = ?


7h Adding & Subtracting One-Digit Numbers

Missing Subtrahend One Digit Numbers With Regrouping 12 - ? = 4

8a Introduction to Multiplication & Division Introduction to Multiplication 2 x 1 = ?

8b Introduction to Multiplication & Division Introduction to Multiplication Fluency 1 x 2 = ?

8c Introduction to Multiplication & Division Introduction to Missing Multiplier ? x 2 = 2

8d Introduction to Multiplication & Division

Introduction to Missing Multiplier Fluency ? x 1 = 2

8e Introduction to Multiplication & Division Introduction to Missing Multiplicand 2 x ? = 2

8f Introduction to Multiplication & Division Introduction to Division Fluency 2 ÷ 1 = ?

8g Introduction to Multiplication & Division Introduction to Division 2 ÷ 1 = ?

8h Introduction to Multiplication & Division

Introduction to Missing Dividend Fluency ? ÷ 1 = 2

Appendices120


8i Introduction to Multiplication & Division Introduction to Missing Dividend ? ÷ 1 = 2

8j Introduction to Multiplication & Division Introduction to Missing Divisor 2 ÷ ? = 2

9a Adding & Subtracting Two-Digit Numbers Adding Two-Digit Numbers 12 + 45 = ?

9b Adding & Subtracting Two-Digit Numbers Missing Addend Two-Digit Numbers 12 + ? = 57

9c Adding & Subtracting Two-Digit Numbers Subtracting Two-Digit Numbers 57 - 12 = ?

9d Adding & Subtracting Two-Digit Numbers Missing Subtrahend Two-Digit Numbers 57 - ? = 45

9e Adding & Subtracting Two-Digit Numbers

Adding Two-Digit Numbers With Regrouping 56 + 75 = ?

9f Adding & Subtracting Two-Digit Numbers

Missing Addend Two-Digit Numbers With Regrouping 56 + ? = 131

9g Adding & Subtracting Two-Digit Numbers

Subtracting Two-Digit Numbers With Regrouping 131 - 75 = ?

9h Adding & Subtracting Two-Digit Numbers

Missing Subtrahend Two-Digit Numbers With Regrouping 131 - ? = 56

10a Three Part Addition & Subtraction Three Part Addition 3 + 2 + 5 = ?

10b Three Part Addition & Subtraction 3-Part Addition Fluency 8 + 5 + 2 = ?

10c Three Part Addition & Subtraction Three Part Missing Addend 3 + 2 + ? = 5

10d Three Part Addition & Subtraction Missing Part Of Sum 2 + 3 = ? + 4

10e Three Part Addition & Subtraction Three Part Subtraction 10 - 3 - 2 = ?

10f Three Part Addition & Subtraction 3-Part Subtraction Fluency 13 - 5 - 2 = ?


10g Three Part Addition & Subtraction Three Part Missing Subtrahend 10 - 3 - ? = 5

11a Adding & Subtracting Three-Digit Numbers Adding Three Digit Numbers 342 + 237 = ?

11b Adding & Subtracting Three-Digit Numbers Missing Addend Three Digit Numbers 342 + ? = 579

11c Adding & Subtracting Three-Digit Numbers Subtracting Three Digit Numbers 579 - 237 = ?

11d Adding & Subtracting Three-Digit Numbers

Missing Subtrahend Three Digit Numbers 579 - ? = 342

11e Adding & Subtracting Three-Digit Numbers

Adding Three Digit Numbers With Regrouping 679 + 834 = ?

11f Adding & Subtracting Three-Digit Numbers

Missing Addend Three Digit Numbers With Regrouping 679 + ? = 1513

11g Adding & Subtracting Three-Digit Numbers

Subtracting Three Digit Numbers With Regrouping 1513 - 834 = ?

11h Adding & Subtracting Three-Digit Numbers

Missing Subtrahend Three Digit Numbers With Regrouping 1513 - ? = 679

12a Introduction to Fractions Unit Fractions: Missing Part 1/2 of 2 = ?

Appendices 121


12b Introduction to Fractions Unit Fractions: Missing Whole 1/2 of ? = 1

12c Introduction to Fractions Fractions Fluency: Missing Part 1/2 of 2 = ?

12d Introduction to Fractions Unit Fractions: Missing Relationship ?/? of 2 = 1

12e Introduction to Fractions Non-Unit Fractions: Missing Part 2/3 of 3 = ?

12f Introduction to Fractions Non-Unit Fractions: Missing Whole 2/3 of ? = 2

12g Introduction to Fractions Non-Unit Fractions: Missing Relation-ship ?/? of 3 = 2

12h Introduction to Fractions Fractions Fluency: Missing Whole 1/2 of ? = 1

12i Introduction to Fractions Whole Fractions: Missing Part 4/4 of 4 = ?

12j Introduction to Fractions Whole Fractions: Missing Whole 4/4 of ? = 4

12k Introduction to Fractions Whole Fractions: Missing Relationship ?/? of 4 = 4

13a Stage 13: Intermediate Multiplica-tion & Division

Introduction to Missing Multiplier And Multiplicand ? x ? = 2

13b Stage 13: Intermediate Multiplica-tion & Division Intermediate Multiplication Fluency 9 x 3 = ?

13c Stage 13: Intermediate Multiplica-tion & Division Intermediate Multiplication 3 x 9 = ?

13d Stage 13: Intermediate Multiplica-tion & Division Intermediate Missing Multiplier Fluency ? x 3 = 27

13e Stage 13: Intermediate Multiplica-tion & Division Intermediate Missing Multiplier ? x 9 = 27

13f Stage 13: Intermediate Multiplica-tion & Division Intermediate Missing Multiplicand 3 x ? = 27

13g Stage 13: Intermediate Multiplica-tion & Division Intermediate Division Fluency 27 ÷ 3 = ?

13h Stage 13: Intermediate Multiplica-tion & Division Intermediate Division 27 ÷ 9 = ?

13i Stage 13: Intermediate Multiplica-tion & Division Intermediate Missing Dividend ? ÷ 9 = 3


13j Stage 13: Intermediate Multiplica-tion & Division Intermediate Missing Dividend Fluency ? ÷ 3 = 9

13k Stage 13: Intermediate Multiplica-tion & Division Intermediate Missing Divisor 27 ÷ ? = 3

13l Stage 13: Intermediate Multiplica-tion & Division

Intermediate Missing Divisor And Quotient 27 ÷ ? = ?

14a Unit Fractions Advanced Unit Fractions: Missing Part 1/2 of 4 = ?

14b Unit Fractions Advanced Unit Fractions Fluency: Missing Part 1/2 of 4 = ?

14c Unit Fractions Advanced Unit Fractions Fluency: Missing Whole 1/2 of ? = 2

14d Unit Fractions Advanced Unit Fractions: Missing Whole 1/2 of ? = 2

14e Unit Fractions Advanced Unit Fractions: Missing Relationship ?/? of 4 = 2

Appendices122


14f Unit Fractions Comparing Unit Fractions 1/2 > ? > 1/4

14g Unit Fractions Comparing Unit Fractions: Missing Comparison 1/2 ? 1/3

15a Non-Unit Fractions Advanced Non-Unit Fractions: Missing Part 2/3 of 9 = ?

15b Non-Unit Fractions Advanced Non-Unit Fractions Fluency: Missing Part 2/3 of 9 = ?

15c Non-Unit Fractions Advanced Non-Unit Fractions Fluency: Missing Whole 2/3 of ? = 6

15d Non-Unit Fractions Advanced Non-Unit Fractions: Missing Whole 2/3 of ? = 6

15e Non-Unit Fractions Advanced Non-Unit Fractions: Missing Relationship ?/? of 9 = 6

15f Non-Unit Fractions Comparing Non-Unit Fractions 3/3 < ? < 1/3

15g Non-Unit Fractions Comparing Non-Unit Fractions: Missing Comparison 2/3 ? 4/5

16a Not Greater & Not Less Not Greater Than 4 >/ ?

16b Not Greater & Not Less Not Less Than 4 </ ?

16c Not Greater & Not Less Negative Inequalities 4 </ ? </ 2

16d Not Greater & Not Less Missing Comparisons (Negation) 4 ? 6 ? 8

17a Improper Fractions Improper Fractions: Missing Part 3/2 of 4 = ?

17b Improper Fractions Improper Fractions Fluency: Missing Part 3/2 of 4 = ?

17c Improper Fractions Improper Fractions: Missing Whole 3/2 of ? = 6

17d Improper Fractions Improper Fractions Fluency: Missing Whole 3/2 of ? = 6

17e Improper Fractions Improper Fractions: Missing Relation-ship ?/? of 4 = 6

17f Improper Fractions Comparing Improper Fractions 3/2 < ? < 6/2

17g Improper Fractions Comparing Improper Fractions: Missing Operator 3/2 ? 5/3

Appendices 123

Appendix B: Word List

addadded toadditionalreadyaltogetheramonganotherare leftareaarrowas manyas muchat the same timeavailableaway frombarbetweenbiggerblinking areaboth of thembring overbuildcannotclickcoincomes backcomparecompletecontinuecorrectcursordenominatordescribesdifferentdifferent sizedivided bydivided evenlydivisiondollardowndragdropearlyeighth

eleventhequalequallyequalsexchangefellfifthfindfirstfitfourthfractionfromgavegettinggivegreatergrewhalfhavehave leftheighthow manyhow muchhow oldhow tallhundredsin eachin order toincreaseintojust onelateleavesleftleft overlengthlesslonglooks the samematches withmeasuresminusminute

missingmoremovemultiplicationmust beneedneeds to beninthno possible solu-tionnotnot correctnot equalnothing left overnull buttonnumbernumber of partsnumber of timesnumbers 0-1999numeratorof theseolder thanone or more timesonesonly oneout ofpartpenniesplaceplace valuepluspointing downpointing uppoundput them togetherquantityreceiverepeatedsamesame lengthsame sizesavedsecondselect

separateseventhshareshorterside to sidesixthsize ofslidessmallersolutionsomespentsubtractsubtractionsymboltake awaytalltallerten plus chiptenstenththanthere arethere istheythirdthousandstimetoo bigtooktoptotaltry againtwelfthweighwholewideyears

Appendices124

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Appendices126

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Symphony Math Guide