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2009 TEXAS TAKS TEST Grade 11 – Science Needed Correct to Pass: 30 Commended Performance: 49 Total Possible Score: 55
This file contains the Texas Assessment of Knowledge and Skills administered in Spring, 2009, along with the answer key, learning objectives, and, for writing tests, the scoring guide. This document is available to the public under Texas state law. This file was created from information released by the Texas Education Agency, which is the state agency that develops and administers the tests.
The number of correct answers required to "pass" this test is shown above. While it is supposedly around 70%, the exact number for each test is determined after the tests have been graded, and is often lower than 70%, making it possible to pass the test without learning some important areas of study. Because of this, I believe that making the passing grade should not be considered "good enough." A student's goal should be to master each of the objectives covered by the test. The "Commended Performance" score is a good goal for mastery of all the objectives.
The test in this file may differ somewhat in appearance from the printed version, due to formatting limitations. Since TAKS questions are changed each year, some proposed questions for future tests are included in each year's exams in order to evaluate the questions. Questions being evaluated for future tests do not count toward a student's score. Those questions are also not included in the version of the test made available to the public, until such time as they become part of the official test.
The test materials in this file are copyright ©2009, Texas Education Agency. All rights reserved. Reproduction of all or portions of this work is prohibited without express written permission from the Texas Education Agency. The availability of these tests on the Internet does not extend to and specifically excludes any use of these materials for commercial purposes. All reproductions of tests or portions of tests must include notice of the Texas Education Agency's copyright on each document.
Questions and comments about the tests should be directed to:
Texas Education Agency Student Assessment Division 1701 N. Congress Ave, Room 3-122A Austin, Texas 78701 phone: 512-463-9536 email: [email protected]
For comments and questions about this file or the web site, you can e-mail me at [email protected], or write to me at the address below. Please include your full name and home address. To download additional tests, go to www.scotthochberg.com. All costs for posting this material on this web site have been paid for by the Scott Hochberg Campaign 6000 Reims #2605 Houston, TX 77036. No tax dollars were used for these purposes.
Texas Assessmentof Knowledge and Skills
EXIT LEVELSCIENCE
Administered April 2009
Copyright © 2009, Texas Education Agency. All rights reserved. Reproduction of all or portions of this work is prohibitedwithout express written permission from the Texas Education Agency.
STUDENT NAME
Page 2
Page 3
SCIENCE
Page 4
Page 5
Density =
( ) = ( )( )( )Speed =
Acceleration =
Momentum = mass × velocity
Force = mass × acceleration
Work = force × distance
Power =
% efficiency = × 100
Kinetic energy = (mass × velocity 2)
Gravitational potential energy = mass × acceleration due to gravity × height
Energy = mass × (speed of light) 2
Velocity of a wave = frequency × wavelength
Current =
Electrical power = voltage × current
Electrical energy = power × time
voltageresistance
12
work outputwork input
worktime
final velocity − initial velocitychange in time
distance traveledtime
specificheat
change intemperaturemass
heat gained or lost
massvolume
FORMULA CHART
Constants/Conversions
g = acceleration due to gravity = 9.8 m/s 2
c = speed of light = 3 × 10 8 m/s
speed of sound = 343 m/s at sea level and 20°C
1 cm 3 = 1 mL
1 wave cycle/second = 1 hertz (Hz)
1 calorie (cal) = 4.18 joules
1000 calories (cal) = 1 Calorie (Cal) = 1 kilocalorie (kcal)
newton (N) = kgm/s 2
joule (J) = Nm
watt (W) = J/s = Nm/s
volt (V) ampere (A) ohm (Ω)
D =
Q = (m)(ΔT)(Cp)
v =
a =
p = mv
F = ma
W = Fd
P =
% = × 100
KE =
PE = mgh
E = mc 2
v = f λ
I =
P = VI
E = Pt
VR
mv 2
2
WO
WI
Wt
vf − vi
Δt
dt
mv
Page 6
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Page 7
Page 8 GO ON
DIRECTIONSRead each question and choose the best answer. Then fill in the correct answer on your answerdocument.
SAMPLE A
When a 10% hydrochloric acid solution isheated in an open test tube, the test tubeshould always be pointed —
A so bubbles are visible
B at a 180° angle from the flame
C toward a ventilated area
D away from nearby people
Page 9
SAMPLE B
Mass = 40 g
Volume = 20 mL
The picture shows a cube that contains 20 mL of a solution. The solution has a mass of 40 grams. What isthe density in g/mL of this solution? Record and bubble in your answer on the answer document.
Page 10 GO ON
3 Which of the following describes a trend in thedata shown in the graph above?
A The solubility of all the salts increases astemperature increases.
B As temperature increases from 30°C to60°C, the solubility of KNO3 increasesmore than that of KCl.
C An increase in atmospheric pressurecauses an increase in the solubility of KCl.
D Increasing the temperature of a KNO3solution from 30°C to 60°C decreases thesolubility of KNO3 by half.
120
140
100
80
60
40
20
20 40
Sol
ubili
ty(g
/100
mL
wat
er)
KCl
Solubility vs. Temperature
60 80 1000
KNO3
Na2SO4
Temperature of Solution(°C)
2 Which of the following describes adisadvantage of using solar cells as an energysource?
F Solar cells generate large quantities ofwaste.
G Solar cells can be used to charge batteries.
H Solar cells release gaseous by-products.
J Solar cells are dependent on availablesunlight.
1 Which system in a fish allows maximumoxygen intake through contact between thefish and its environment?
A Respiratory system
B Endocrine system
C Reproductive system
D Excretory system
Page 11 GO ONGO ON
5 Some plants have a hard waxy coating ontheir leaves that helps prevent water loss. Inwhich environment do these plants most likelygrow?
A Desert
B Marine
C Grassland
D Rain forest
4 The diagram shows light being refracted.Which tool should be used to measure theangle at which the light is bending?
F Ruler
G Compass
H Protractor
J Thermometer
Air
Glass
Air
Lightray
Page 12 GO ON
6 A mutation has occurred in an mRNA fragment that was originally CUU. Which of the followingmutated mRNA fragments would result in an amino acid sequence different from that produced by theCUU fragment?
F CUC
G CUA
H CUG
J CAU
UCAG
U
UCAG
C
UCAG
A
UCAG
G
Second Base
mRNA Codons and Corresponding Amino Acids
Firs
t Bas
eT
hird Base
UUUUUCUUAUUG
UGUUGCUGAUGG
UCUUCCUCAUCG
UAUUACUAAUAG
CUUCUCCUACUG
AUUAUCAUAAUG
CGUCGCCGACGG
CCUCCCCCACCG
CAUCACCAACAG
Phenylalanine
LeucineSerine
U
Tyrosine
STOP
Cysteine
TryptophanSTOP
Isoleucine
Methionine
Leucine
GUUGUCGUAGUG
Valine
ProlineHistidine
Glutamine
ACUACCACAACG
GCUGCCGCAGCG
AAUAACAAAAAG
Threonine
Alanine
Asparagine
Lysine
GAUGACGAAGAG
Aspartic acid
Glutamic acid
AGUAGCAGAAGG
Serine
Arginine
Arginine
GGUGGCGGAGGG
Glycine
C A G
CodonAminoacid
Page 13 GO ON
8 An athlete sitting in a wheelchair at restthrows a basketball forward. Since the athleteand the wheelchair have greater mass thanthe basketball has, the athlete and thewheelchair will —
F move backward at a lower speed than thebasketball moves forward
G travel the same distance as the basketballbut in the opposite direction
H move backward at a higher speed than thebasketball moves forward
J have the same forward momentum as thebasketball
7 In which plant group does this plant belong?
A Bryophytes
B Psilophytes
C Gymnosperms
D Angiosperms
Plant Group Characteristics
Bryophytes
Psilophytes
Gymnosperms
Angiosperms
Contain no xylem and phloem;reproduce by spores and gametes
Contain xylem and phloem;no difference between root and stem
Have naked seeds located onthe cones
Have enclosed seeds locatedin a fruit
Page 14 GO ON
11 A student uses a hot plate, a thermometer,and a stopwatch to investigate the rate atwhich a metal object conducts heat. To ensurethe most reliable results, which of thefollowing should the student do?
A Perform a second investigation usingdifferent tools
B Use several thermometers to measuretemperature
C Develop a hypothesis before starting theinvestigation
D Repeat the entire investigation severaltimes
10 A sample liquid is cooled from 150°C to 30°C,causing the liquid to change into a solid.Which of the following has occurred?
F Chemical composition has changed.
G A physical change has occurred.
H A new compound has formed.
J Evaporation of a solvent has occurred.
9 A group of researchers discovered the fossilized remains of a flying mammal that appears to have lived130 million to 165 million years ago. Since the earliest flying birds are believed to have appeared about150 million years ago, researchers concluded that birds and mammals began to fly at about the sametime. This conclusion would be most weakened by evidence of which of the following?
A A 100-million-year-old fossil of a flying bird
B A 120-million-year-old fossil of a flying bird
C A 160-million-year-old fossil of a flying mammal
D A 200-million-year-old fossil of a flying mammal
Page 15 GO ON
13 A solution having an equal number of H+ ionsand OH– ions will have a pH of —
A 3
B 7
C 9
D 11
12 The table above shows symptoms experiencedby four patients. Which of these patients mostlikely has a problem with the excretorysystem?
F Patient 1
G Patient 2
H Patient 3
J Patient 4
Symptoms of Four Patients
Patient Symptom
1
2
3
4
Decrease in urine output
Decrease in metabolic rate
Decrease in muscle strength
Decrease in blood pressure
Page 16 GO ON
14 Which information would best help scientists verify the relationships among the organisms shownabove?
F The organisms’ nutritional requirements
G The organisms’ DNA sequences
H The organisms’ migratory patterns
J The organisms’ population sizes
Tree of Some Evolutionary Relationships
Tim
e
Page 17 GO ON
16 A female spring peeper frog produces 200 eggsthrough parthenogenesis. If all the eggs hatch,they will produce —
F 50 females and 150 males
G 100 females and 100 males
H 150 females and 50 males
J 200 females and 0 males
Parthenogenesis: a type of asexual reproductionin which an organism is produced from anunfertilized egg
15 A circle graph would best help a studentcommunicate a conclusion about aninvestigation involving —
A the proportions by mass of three metals inan alloy
B the amounts of heat released by threechemical reactions
C the amounts of force required toaccelerate three different masses
D the electrical conductivity of three saltsolutions
Page 18 GO ON
Use the information below and your knowledge of science to answer questions 17–20.
Fireworks
Fireworks displays are often associated with celebrations. Some fireworks are rockets that can be firedinto the air, producing colorful patterns of bright light. One rocket design involves a cardboard tube, apropellant, and a fuse. A cap on the tube contains metal salts and explosive powder with a second fuse. Thepropellant consists of a mixture of carbon (C), sulfur (S), and potassium nitrate (KNO3). Potassium nitrate isa potassium ion (K+) bonded to a nitrate ion (NO3
–).
A long cardboard tube is filled with the propellant. When a lit fuse ignites the propellant, thepropellant releases oxygen, produces flames, and forces gas out the bottom of the rocket. These actions causethe rocket to rise high into the air.
As the rocket reaches its maximum height, a second fuse ignites an explosion that heats and burns themetal salts. This heating and burning of metal salts produces large colorful flashes. Many people enjoywatching these colorful displays against the night sky.
The use of fireworks can be dangerous. Professionals who use fireworks take many safety precautionswhile setting up and igniting the displays.
Metal salts andexplosive powder
Second fuse
First fuse
Cardboardtube
Heat-resistantclay
Propellant(C, S, KNO3)
Burninggases
Motion offirework
Firework Rocket Design
Page 19 GO ON
20 A scientist hypothesizes that the use of apropellant other than the traditional mixtureof C, S, and KNO3 will cause a rocket to risehigher into the air. The researcher builds arocket that uses an alternate propellant. Aproper control for the experiment would be anidentical rocket that uses —
F the traditional propellant
G the alternate propellant
H no propellants
J a mixture of both propellants
19 When the fuse ignites the contents of afirework, oxygen is consumed as a result ofwhich type of change?
A Mass
B Phase
C Nuclear
D Chemical
18 As a rocket rises, its kinetic energy changes.At the time the rocket reaches its highestpoint, most of the kinetic energy of the rockethas been —
F permanently destroyed
G transformed into potential energy
H converted to friction
J stored in bonds between its atoms
17 Which of the following information wouldallow the most direct calculation of theaverage speed of the rocket on its upwardflight?
A Thrust force and wind speed
B Maximum height and the time it takes therocket to reach it
C Rocket mass and the time it takes therocket to reach the highest point
D Thrust force and the time it takes therocket to fall to the ground
Page 20 GO ON
22 The ball in the diagram is moving at a speedof 12 m/s. What is the momentum of the ballin kg · m/s? Record and bubble in your answerto the tenths place on the answer document.
0.20 kgball
21 Which of the following properties causesattraction between molecules of liquid water?
A Acidity
B Polarity
C Density
D Viscosity
Page 21 GO ON
25 A person uses a force of 600 N to lift a boxfrom the ground to the top of the ramp shown.Another worker uses a force of 300 N to pushthe same box up the complete length of theramp. What is the approximate percentefficiency of the ramp?
A 17%
B 23%
C 77%
D 83%
2.5 m
6.0 m
6.5 m
24 Which of the following is a characteristic ofmost bacterial infections but not of a viralinfection?
F It can cause multiple symptoms.
G It can affect different people differently.
H It can be spread by inhalation.
J It can be treated with an antibiotic.
23 For safety reasons, which of these labels is themost important to have on a reagent bottle?
A
B
C
D Prepared onApril 12
NaOHpH = 11.0
500 mL
Liquid at RoomTemperature
Page 22 GO ON
27 The table shows some properties of fourdifferent substances. The picture shows a solidsphere of one of the four substances in awater-ethanol solution (D = 0.9199 g/mL).The sphere is most likely composed of whichsubstance?
A Substance Q
B Substance R
C Substance S
D Substance T
Substance Melting Point (°C)
Density (g/mL)
0.72
650
460
1.74
81 1.00
142 0.94
Q
R
S
T
26 Molten rock rises in Earth’s mantle and thensinks back toward the core in a circularpattern, as shown in the diagram. Thismethod of heat transfer is known as —
F conduction
G vibration
H radiation
J convection
Earth’score
Earth’scrust
Earth’smantle
Page 23 GO ON
29 Cell membranes perform all the followingfunctions except —
A making nutrients for cells
B holding cytoplasm within cells
C regulating substances exiting cells
D recognizing other cells
28 A motor produces less mechanical energy thanthe energy it uses because the motor —
F gains some energy through motion
G stores some energy as electrons
H converts some energy into heat and sound
J uses some energy to increase in mass
Page 24 GO ON
30 What is the balanced coefficient ratio for the reaction shown above?
F 3:3:3:2
G 2:1:2:2
H 2:3:2:2
J 1:1:1:1
___ Ca(OH)2(aq) + ___ CO2(g) ___ CaCO3(s) + ___ H2O(l )
31 The diagram shows a longitudinal section ofpart of a plant root tip. Which of the followingstatements best describes a trend that can beobserved in this root tip?
A The cells are generally longer at the topthan at the bottom.
B The number of nuclei per cell increasestoward the bottom of the root.
C The cells are shorter the closer they are tothe outer surface of the root.
D The number of cells per area of the root isgenerally constant.
Top
BottomOuter
surface
Center Outersurface
Page 25 GO ON
32 Which of the following best describes a difference between a mutualistic relationship and a parasiticrelationship?
F Parasitism harms both organisms, while mutualism harms only one organism.
G Parasitism benefits only one organism, while mutualism benefits both organisms.
H Parasitism involves only two organisms, while mutualism involves many organisms.
J Parasitism continues for many generations, while mutualism is limited to one generation.
33 Diagram 1 represents a wave. Diagram 2 represents the composite wave formed when a second waveinterferes with the original wave. Which of the following best represents the second wave?
A C
B D
2 cm
2 cm
2 cm
2 cm
2 cm 2 cm
Diagram 1:Original Wave
Diagram 2:Composite Wave
Page 26 GO ON
35 A student compares the viscosities of twosolutions at room temperature. The studentuses a metal block and equal volumes of thetwo solutions in identical containers. Whichprocedure would provide the best comparisonof the viscosities of the solutions?
A Determining whether the block raises orlowers the density of either solution
B Determining whether the block raises orlowers the temperature of either solution
C Measuring the volume of liquid the blockdisplaces in each solution
D Measuring the time it takes the block tosink in each solution
34 Water molecules generally have which effecton a soluble ionic compound mixed into water?
F They remove electrons from thecompound.
G They break the bonds between the ions.
H They change the ionic bonds to covalentbonds.
J They add protons to the ionic nuclei.
Page 27 GO ON
36 The illustration shows the transcription process. What is the main purpose of the structure labeled W?
F Carrying instructions for protein synthesis
G Transforming into a protein
H Replacing damaged DNA
J Passing traits to offspring
C
G A
TU
C
G
C
G
TA
TA
C
GC AG
UA
TA
CTA
GC
GA
GU
AA
G
C
G
T
A
C
G
A
T
A
T
DNA
W
Page 28 GO ON
40 Many viruses released into the air survive foronly short periods of time. Which of thefollowing is the most likely reason for this?
F Viruses attract antibodies in theatmosphere.
G Viruses require a low atmosphericpressure.
H Viruses are hosts for bacteria thateventually destroy them.
J Viruses are dependent on host cells ofliving organisms.
39 Some students investigate the rusting rate offour metals in saltwater. To best find therusting rates, the students should measurethe masses of the metals before theinvestigation and at —
A the same time and day during each weekof the investigation
B different times and days during each weekof the investigation
C any time during the first week of theinvestigation
D one randomly selected time during theinvestigation
38 Half of the tube of compound is applied to apair of tennis shoes and allowed to drycompletely. How much mass will the shoesgain?
F 20 g
G 40 g
H 50 g
J 100 g
A 100-gram tube of adhesive shoe-patchingcompound has 40% (by mass) adhesivedissolved in a solvent. When the compound isapplied, the solvent evaporates, leaving onlythe adhesive.
37 A food web is shown above. If the rabbitpopulation increases, which of the following ismost likely to happen soon afterward?
A The deer population will increase.
B The plant population will decrease.
C Different birds will move into the area.
D The insect population will be eliminated.
Coyotes
Rats
SnakesHawks
Seed-eatingbirds
Rabbits
Grasses,shrubs
Deer
Insects
Spiders
Frogs
Page 29 GO ON
44 In addition to a hot plate and beakers, whichof these items are needed to test thehypothesis above?
F Test tube, barometer, thermometer
G Balance, thermometer, hand lens
H Stopwatch, microscope, test tube
J Thermometer, stopwatch, balance
Hypothesis: A 5-gram quantity of saltwill dissolve faster in 30°C water thanit will in 10°C water.
43 The long-term survival of any species oforganism is possible only if the organisms can —
A migrate when temperatures change
B reproduce successfully
C find protection from predators
D locate a constant food source
42 An advertisement for a new medication claimsthat patients can lower body cholesterol by25%–45%. If the claim is accurate, patientswho will benefit most from this medication arethose who —
F have high cholesterol levels
G consume small amounts of cholesterol
H want to eliminate cholesterol
J are aware of cholesterol’s effects
41 The diagram above represents a reflex arc in ahuman. This pathway responds when someonetouches something that causes pain, such as ahot stove. Which of the following shows thecorrect order of the body systems involved inthis response?
A Integumentary, respiratory, digestive
B Circulatory, respiratory, nervous
C Integumentary, nervous, muscular
D Circulatory, digestive, nervous
Skin
Muscle
Vertebra
Spinal cord
Reflex arc: the neural pathway from a pointof stimulation to the responding organ
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45 An electric toy cart has a mass of 6.0 kilograms and a constant acceleration of 0.50 m/s2. How muchwork does the net force do on the toy cart as the cart travels 8.0 meters?
A 24 Nm
B 30 Nm
C 40 Nm
D 48 Nm
8.0 m
6.0 kg
Acceleration = 0.50 m/s2
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48 A child jumps on a trampoline, as shownabove. Which of the following causes the childto rise in the air?
F Inertia
G Mass
H A reaction force
J A gravitational force
Surface oftrampoline
Direction ofDirection ofmovementmovementDirection ofmovement
47 The elements in which of these sets havechemical properties that are the most similar?
A K, Ca, Sc
B O, S, Se
C Na, Ca, Y
D P, S, Cl
46 White-tailed deer meet their energy needsthrough which of these activities?
F Drinking water
G Absorbing sunlight
H Eating plants
J Exhaling carbon dioxide
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51 An advertisement for a brand of tea claims thetea “improves the immune system.” This claimimplies that the tea —
A helps the body produce antibodies
B accelerates the process of digestion
C prevents bacteria from entering cells
D keeps the body from being exposed toviruses
50 Members of the kingdom Animalia are bestdescribed as —
F unicellular, prokaryotic, heterotrophic
G unicellular, eukaryotic, autotrophic
H multicellular, eukaryotic, heterotrophic
J multicellular, eukaryotic, autotrophic
49 Robert Koch is known for developing Koch’s postulates, a series of steps used to identify the agentsresponsible for some diseases. The validity of the postulates is best supported by which fact shownabove?
A Fact 1
B Fact 2
C Fact 3
D Fact 4
Fact 1: Koch directed a scientific research institute.
Fact 2: Koch developed procedures for disease control through sanitation.
Fact 3: Koch developed postulates that included four steps.
Fact 4: Koch used his four steps to identify the causes of tuberculosis and anthrax.
Some Facts About Robert Koch
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52 A 2.25 kg fish swims in a pond at a constantrate of 56 meters in 96 seconds. What is thefish’s approximate speed?
F 0.020 m/s
G 0.40 m/s
H 0.58 m/s
J 1.7 m/s
54 In a single-displacement reaction, thechemical change shown above occurs. Whichequation supports the law of conservation ofmass?
F w = y
G x = z
H w + x = y + z
J w + x = 2(y + z)
Chemicals: 2HI + F2 2HF + I2Masses: w x y z
53 A student investigates the effects of fivebrands of fertilizer on plant growth andconcludes that Brand X works best. Which ofthe following would best communicate thisconclusion?
A A list of the ingredients in each brand offertilizer used
B A graph showing the growth rate of plantsgrown with the different fertilizers
C A description of the role of differentnutrients in plant growth
D A diagram showing the conditions inwhich each plant grew
Page 34
BE SURE YOU HAVE RECORDED ALL OF YOUR ANSWERS
ON THE ANSWER DOCUMENT.
55 Scientists recently found a fossil representing a newly discovered animal species that they namedTiktaalik roseae. The fossil indicates that Tiktaalik roseae had a fish-like jaw and scale-covered fins.The front fins had bones similar to those of a shoulder, an upper arm, an elbow, a forearm, and a wrist.This information suggests that populations of Tiktaalik roseae most likely lived in which twoenvironments?
A In saltwater and in freshwater
B In water and on land
C On land and in treetops
D In glaciers and in caves
TTAAKKSS EEXXIITT LLEEVVEELLSSCCIIEENNCCEE
AAPPRRIILL 22000099
Texas Assessment of Knowledge and Skills - Answer Key
Grade: Exit LevelSubject: ScienceAdministration: April 2009
The letter B indicates that thestudent expectation listed is from theBiology I TEKS.
The letter I indicates that thestudent expectation listed is from theIntegrated Physics and Chemistry TEKS.
Item Correct Objective StudentNumber Answer Measured Expectations
Copyright © 2009, Texas Education Agency. All rights reserved. Reproduction of all or portions of this work isprohibited without express written permission from the Texas Education Agency.
01 A 02 B.10 (A)
02 J 05 I.6 (D)
03 B 04 I.9 (D)
04 H 01 B.2 (A)
05 A 03 B.13 (A)
06 J 02 B.6 (C)
07 C 01 B.2 (C)
08 F 05 I.4 (B)
09 D 01 I.3 (A)
10 G 04 I.8 (A)
11 D 01 B.2 (B)
12 F 02 B.10 (A)
13 B 04 I.9 (B)
14 G 03 B.7 (A)
15 A 01 B.2 (C)
16 J 02 B.6 (A)
17 B 01 B.2 (A)
18 G 05 I.6 (A)
19 D 04 I.8 (A)
20 F 01 B.2 (A)
21 B 04 I.9 (A)
22 2.4 05 I.4 (A)
23 C 01 B.1 (A)
24 J 03 B.4 (D)
25 C 05 I.4 (D)
26 J 05 I.6 (B)
27 A 04 I.7 (A)
28 H 05 I.6 (A)
29 A 02 B.4 (B)
30 J 04 I.8 (C)
31 A 01 B.2 (C)
32 G 03 B.12 (B)
33 A 05 I.5 (B)
34 G 04 I.9 (A)
35 D 04 I.7 (A)
36 F 02 B.6 (B)
37 B 03 B.12 (E)
38 F 01 B.2 (D)
39 A 01 B.2 (B)
40 J 03 B.4 (C)
41 C 02 B.10 (B)
42 F 01 I.3 (B)
43 B 03 B.7 (B)
44 J 01 B.2 (A)
45 A 05 I.4 (A)
46 H 03 B.9 (D)
47 B 04 I.7 (D)
48 H 05 I.4 (B)
49 D 01 I.3 (A)
50 H 02 B.8 (C)
51 A 01 I.3 (B)
52 H 05 I.4 (A)
53 B 01 B.2 (D)
54 H 04 I.8 (C)
55 B 01 B.2 (D)
Exit Level Science
Objective 1:
Objective 2:
For a more complete description of the objectives measured, please refer to the Revised TAKSInformation Booklet for Exit Level Science athttp://www.tea.state.tx.us/student.assessment/taks/booklets/index.html.
The student, for at least40% of instructional time, conducts field and laboratory investigations using safe, environmentallyappropriate, and ethical practices. The student is expected to
(A) demonstrate safe practices during field and laboratory investigations.
The student usesscientific methods during field and laboratory investigations. The student is expected to
(A) plan and implement investigative procedures including asking questions, formulating testablehypotheses, and selecting equipment and technology;
(B) collect data and make measurements with precision;
(C) organize, analyze, evaluate, make inferences, and predict trends from data; and
(D) communicate valid conclusions.
The student uses critical thinking andscientific problem solving to make informed decisions. The student is expected to
(A) analyze, review, [and critique] scientific explanations, including hypotheses and theories, asto their strengths and weaknesses using scientific evidence and information; and
(B) draw inferences based on data related to [promotional materials for] products and services.
The student knows that cells are the basic structures of all living thingsand have specialized parts that perform specific functions, and that viruses are different from cellsand have different properties and functions. The student is expected to
(B) investigate and identify cellular processes including homeostasis, permeability, energyproduction, transportation of molecules, disposal of wastes, function of cellular parts, andsynthesis of new molecules.
The student knows the structures and functions of nucleic acids in themechanisms of genetics. The student is expected to
(A) describe components of deoxyribonucleic acid (DNA), and illustrate how information forspecifying the traits of an organism is carried in the DNA;
(B) explain replication, transcription, and translation using models of DNA and ribonucleic acid(RNA); and
Page 1
The student will demonstrate an understanding of the nature of science.
Biology (1) and Integrated Physics and Chemistry (1) Scientific Processes.
Biology (2) and Integrated Physics and Chemistry (2) Scientific Processes.
Integrated Physics and Chemistry (3) Scientific Processes.
The student will demonstrate an understanding of the organization of livingsystems.
Biology (4) Science Concepts.
Biology (6) Science Concepts.
Exit Level Science (continued)
Objective 3:
(C) identify and illustrate how changes in DNA cause mutations and evaluate the significance ofthese changes.
The student knows applications of taxonomy and can identify itslimitations. The student is expected to
(C) identify characteristics of kingdoms including monerans, protists, fungi, plants, andanimals. **
**The TAKS will use the most current classification system.
The student knows that, at all levels of nature, living systems arefound within other living systems, each with its own boundary and limits. The student is expectedto
(A) interpret the functions of systems in organisms including circulatory, digestive, nervous,endocrine, reproductive, integumentary, skeletal, respiratory, muscular, excretory, andimmune; and
(B) compare the interrelationships of organ systems to each other and to the body as a whole.
The student knows that cells are the basic structures of all living thingsand have specialized parts that perform specific functions, and that viruses are different from cellsand have different properties and functions. The student is expected to
(C) compare the structures and functions of viruses to cells and describe the role of viruses incausing diseases and conditions such as acquired immune deficiency syndrome, commoncolds, smallpox, influenza, and warts; and
(D) identify and describe the role of bacteria in maintaining health such as in digestion and incausing diseases such as in streptococcus infections and diphtheria.
The student knows the theory of biological evolution. The student isexpected to
(A) identify evidence of change in species using fossils, DNA sequences, anatomical similarities,physiological similarities, and embryology; and
(B) illustrate the results of natural selection in speciation, diversity, phylogeny, adaptation,behavior, and extinction.
The student knows metabolic processes and energy transfers thatoccur in living organisms. The student is expected to
(D) analyze the flow of matter and energy through different trophic levels and betweenorganisms and the physical environment.
Page 2
Biology (8) Science Concepts.
Biology (10) Science Concepts.
The student will demonstrate an understanding of the interdependence oforganisms and the environment.
Biology (4) Science Concepts.
Biology (7) Science Concepts.
Biology (9) Science Concepts.
Exit Level Science (continued)
Objective 4:
Objective 5:
The student knows that interdependence and interactions occur withinan ecosystem. The student is expected to
(B) interpret interactions among organisms exhibiting predation, parasitism, commensalism, andmutualism; and
(E) investigate and explain the interactions in an ecosystem including food chains, food webs,and food pyramids.
The student knows the significance of plants in the environment. Thestudent is expected to
(A) evaluate the significance of structural and physiological adaptations of plants to theirenvironments.
The student knows relationships existbetween properties of matter and its components. The student is expected to
(A) investigate and identify properties of fluids including density, viscosity, and buoyancy; and
(D) relate the chemical behavior of an element including bonding, to its placement on theperiodic table.
The student knows that changes in matteraffect everyday life. The student is expected to
(A) distinguish between physical and chemical changes in matter such as oxidation, digestion,changes in states, and stages in the rock cycle; and
(C) investigate and identify the law of conservation of mass.
The student knows how solution chemistryis a part of everyday life. The student is expected to
(A) relate the structure of water to its function [as the universal solvent];
(B) relate the concentration of ions in a solution to physical and chemical properties such as pH,electrolytic behavior, and reactivity; and
(D) demonstrate how various factors influence solubility including temperature, pressure, andnature of the solute and solvent.
The student knows concepts of force andmotion evident in everyday life. The student is expected to
(A) calculate speed, momentum, acceleration, work, and power in systems such as in thehuman body, moving toys, and machines;
Page 3
Biology (12) Science Concepts.
Biology (13) Science Concepts.
The student will demonstrate an understanding of the structures and propertiesof matter.
Integrated Physics and Chemistry (7) Science Concepts.
Integrated Physics and Chemistry (8) Science Concepts.
Integrated Physics and Chemistry (9) Science Concepts.
The student will demonstrate an understanding of motion, forces, and energy.
Integrated Physics and Chemistry (4) Science Concepts.
Exit Level Science (continued)
(B) investigate and describe applications of Newton's laws such as in vehicle restraints, sportsactivities, geological processes, and satellite orbits; and
(D) investigate and demonstrate [mechanical advantage and] efficiency of various machinessuch as levers, motors, wheels and axles, pulleys, and ramps.
The student knows the effects of waves oneveryday life. The student is expected to
(B) demonstrate wave interactions including interference, polarization, reflection, refraction, andresonance within various materials.
The student knows the impact of energytransformations in everyday life. The student is expected to
(A) describe the law of conservation of energy;
(B) investigate and demonstrate the movement of heat through solids, liquids, and gases byconvection, conduction, and radiation; and
(D) investigate and compare economic and environmental impacts of using various energysources such as rechargeable or disposable batteries and solar cells.
Page 4
Integrated Physics and Chemistry (5) Science Concepts.
Integrated Physics and Chemistry (6) Science Concepts.