1�� | Announcement of Courses

Engineering 183AutoCAD I - Computer Aided DraftingUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

A first course in computer drafting using AutoCAD software. Topics include: display and file management, units, entities, object selection, advanced editing, layers, dimensions, text, graphic exchange.

Engineering 184AutoCAD II - Computer Aided DraftingUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Intermediate course in the use of AutoCAD software. Topics include blocks, hatches, attributes, inquiry, and 3‑D introduction. Recommended preparation: Engineering 183.

Engineering 185AutoCAD III - Computer Aided DraftingUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Advanced course in the use of AutoCAD software. Topics include DXF format, scripts, macros, customizing and creating image tile menus. Recommended prepara‑tion: Engineering 184.

Engineering 186AutoCAD 3-Dimensional DrawingUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Use of AutoCAD’s 3‑dimensional software. Includes 3‑D models, extruding to 3‑D, coordinate space, filter, and dynamic viewing. Recommended preparation: Engineering 184.

Engineering 187Advanced 3-D AutoCADUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Advanced use of AutoCAD’s 3‑Dimensional software. Includes: merging of models, advanced modeling, calcula‑tions, 3‑dimensional rendering and presentation. Suggested preparation: Engineering 186.

Engineering 188Machine Technology SurveyUnit(s): 3Class Hours: 16 Lecture, 112 Laboratory total.Prerequisite: Successful completion or con‑current enrollment in Engineering 011, 051, 122, 124, 125; or Manufacturing Technology 011.

Machine tool setup and operation for students who desire general knowledge of machine tools and processes. All the basic machine tools are used. Not intended for Manufacturing Technology majors. (Same as Manufacturing Technology 188.)

Engineering 191Civil CAD ConceptsUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Fundamental principles, operation tech‑niques and practices of two dimensional design using MicroStation computer aided drafting and design software emphasizing Civil Engineering applications, to create, modify, store and plot graphic data.

Engineering 193Microstation 3-DUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Theory, concepts, techniques and prac‑tices of three dimensional design using MicroStation computer aided drafting and design software. Topics include: surfaces, solids, shade, and color. Suggested preparation: Engineering 191.

Engineering 201Architectural PracticeUnit(s): 4Class Hours: 48 Lecture, 64 Laboratory total.Prerequisite: Engineering 183.

Course provides “real world” practical knowledge, ecological terms and con‑cepts, needed to research information, make decisions, develop a basic design, experience the process of working through a project, and understand how various activities are related in the scope of a typi‑cal small project. Suggested preparation: Engineering 142, 112 and 149.

Engineering 205Civil Digital ComputationsUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.Prerequisite: Engineering 183.

Introduction to the theory of AutoCAD engine in civil engineering. Included top‑ics: CAD customization for civil engineers; digital computation methods in statistics and solving algebraic equations; primary combined and complex elements; CAD engine deliverables; complex shapes and libraries.

Engineering 228Descriptive GeometryUnit(s): 3Class Hours: 32 Lecture, 64 Laboratory total.

Application of the concepts of orthograph‑ic projection to the solution of three‑di‑mensional problems arising in the various branches of engineering. Introductory computer aided drafting/design concepts or applications. Suggested preparation: Engineering 122 or 125.

Engineering 235StaticsUnit(s): 3Class Hours: 48 Lecture total.Prerequisite: Physics 217 & Mathematic 185 (both may be taken concurrently)

The first part of mechanics, as applied to static force systems and equilibrium con‑ditions occurring in engineering problems. Includes some graphical methods and the use of diagrams as an aid to algebraic solutions. Utilizes SI metrics.

Engineering 240DynamicsUnit(s): 3Class Hours: 48 Lecture total.Prerequisite: Engineering 235.

The second part of mechanics, concerned with the effect of forces on the motion of objects. Introduction to kinematics and kinetics, rectilinear and curvilinear motion, work and energy, impulse and momentum, and vibrations.

Engineering 250Electric CircuitsUnit(s): 3Class Hours: 48 Lecture total.Prerequisite: Mathematics 280, and Physics 227 (both may be taken concurrently).

Ohm’s and Kirchhoff’s Laws, useful theo‑rems for circuit analysis, RC, RL, and RLC circuits, phasors and steady‑state sinusoi‑dal analysis, and polyphase circuits.

Engineering 250LElectric Circuits LaboratoryUnit(s): 1Class Hours: 48 Laboratory total.Prerequisite: Engineering 250 or concurrent enrollment.

Selected laboratory exercises in engineer‑ing circuit analysis. Resistive, RL, RC, and RLC circuits, and circuit analysis theorems.

Engineering 281Properties of Engineering MaterialsUnit(s): 3Class Hours: 48 Lecture total.Prerequisite: Chemistry 209 and Physics 217.

Study of atomic, microscopic, and macro‑scopic structure of metals; properties en‑hancement by alloying and heat treatment; effects of temperature and corrosion on metals; fatigue; and other materials (wood, plastic, and concrete).

ENGLISH (ENGL)

English N10Preparation for Nursing TEAS EnglishUnit(s): 0.2Class Hours: 3 Lecture total.

Designed to assist nursing students in preparation for the English component of the Test of Essential Academic Skills.