CHAPTER 8 TEST REVIEW MARKSCHEME

Similar documents
Chapter 9 Rotational Dynamics

Name Date Period PROBLEM SET: ROTATIONAL DYNAMICS

Physics. Chapter 8 Rotational Motion

CHAPTER 8: ROTATIONAL OF RIGID BODY PHYSICS. 1. Define Torque

PSI AP Physics I Rotational Motion

Rotation. PHYS 101 Previous Exam Problems CHAPTER

6. Find the net torque on the wheel in Figure about the axle through O if a = 10.0 cm and b = 25.0 cm.

PSI AP Physics I Rotational Motion

Chapter 8 - Rotational Dynamics and Equilibrium REVIEW

PHYSICS 221, FALL 2011 EXAM #2 SOLUTIONS WEDNESDAY, NOVEMBER 2, 2011

Big Idea 4: Interactions between systems can result in changes in those systems. Essential Knowledge 4.D.1: Torque, angular velocity, angular

It will be most difficult for the ant to adhere to the wheel as it revolves past which of the four points? A) I B) II C) III D) IV

AP Physics Multiple Choice Practice Torque

Chapter 9. Rotational Dynamics

Handout 7: Torque, angular momentum, rotational kinetic energy and rolling motion. Torque and angular momentum

TutorBreeze.com 7. ROTATIONAL MOTION. 3. If the angular velocity of a spinning body points out of the page, then describe how is the body spinning?

Chapter 9. Rotational Dynamics

Chapter 8, Rotational Equilibrium and Rotational Dynamics. 3. If a net torque is applied to an object, that object will experience:

AP Physics. Harmonic Motion. Multiple Choice. Test E

Chapter 9-10 Test Review

31 ROTATIONAL KINEMATICS

Big Ideas 3 & 5: Circular Motion and Rotation 1 AP Physics 1

= o + t = ot + ½ t 2 = o + 2

PHYSICS 149: Lecture 21


1 MR SAMPLE EXAM 3 FALL 2013

We define angular displacement, θ, and angular velocity, ω. What's a radian?

Review questions. Before the collision, 70 kg ball is stationary. Afterward, the 30 kg ball is stationary and 70 kg ball is moving to the right.

Slide 1 / 133. Slide 2 / 133. Slide 3 / How many radians are subtended by a 0.10 m arc of a circle of radius 0.40 m?

Slide 2 / 133. Slide 1 / 133. Slide 3 / 133. Slide 4 / 133. Slide 5 / 133. Slide 6 / 133

3. A bicycle tire of radius 0.33 m and a mass 1.5 kg is rotating at 98.7 rad/s. What torque is necessary to stop the tire in 2.0 s?

Physics 221. Exam III Spring f S While the cylinder is rolling up, the frictional force is and the cylinder is rotating

Rotation review packet. Name:

Webreview Torque and Rotation Practice Test

Name: Date: Period: AP Physics C Rotational Motion HO19

Unit 8 Notetaking Guide Torque and Rotational Motion

End-of-Chapter Exercises

AP Physics 1: Rotational Motion & Dynamics: Problem Set

Summer Physics 41 Pretest. Shorty Shorts (2 pts ea): Circle the best answer. Show work if a calculation is required.

AP Physics C: Rotation II. (Torque and Rotational Dynamics, Rolling Motion) Problems

Angular Momentum L = I ω

Phys 106 Practice Problems Common Quiz 1 Spring 2003

Circular Motion, Pt 2: Angular Dynamics. Mr. Velazquez AP/Honors Physics

1. Which of the following is the unit for angular displacement? A. Meters B. Seconds C. Radians D. Radian per second E. Inches

Concept Question: Normal Force

Chapter 8 Rotational Motion and Equilibrium. 1. Give explanation of torque in own words after doing balance-the-torques lab as an inquiry introduction

Solution to phys101-t112-final Exam

Rotational Dynamics. Slide 2 / 34. Slide 1 / 34. Slide 4 / 34. Slide 3 / 34. Slide 6 / 34. Slide 5 / 34. Moment of Inertia. Parallel Axis Theorem

Angular Momentum L = I ω

Practice Test 3. Name: Date: ID: A. Multiple Choice Identify the choice that best completes the statement or answers the question.

PHYSICS 221 SPRING EXAM 2: March 30, 2017; 8:15pm 10:15pm

Suggested Problems. Chapter 1

Rolling, Torque, Angular Momentum

AP Physics 1 Rotational Motion Practice Test

Name Student ID Score Last First. I = 2mR 2 /5 around the sphere s center of mass?

On my honor, I have neither given nor received unauthorized aid on this examination.

1301W.600 Lecture 16. November 6, 2017

Fall 2007 RED Barcode Here Physics 105, sections 1 and 2 Please write your CID Colton

Use the following to answer question 1:

Mechanics II. Which of the following relations among the forces W, k, N, and F must be true?

Test 7 wersja angielska

Exam 2 Solutions. PHY2048 Spring 2017

Rolling, Torque & Angular Momentum

Rotational Mechanics Part III Dynamics. Pre AP Physics

Torque rotational force which causes a change in rotational motion. This force is defined by linear force multiplied by a radius.

Problem Set x Classical Mechanics, Fall 2016 Massachusetts Institute of Technology. 1. Moment of Inertia: Disc and Washer

Rotation Quiz II, review part A

Gravitational potential energy

8.012 Physics I: Classical Mechanics Fall 2008

AP Physics QUIZ Chapters 10

Physics 201 Exam 3 (Monday, November 5) Fall 2012 (Saslow)

Topic 1: Newtonian Mechanics Energy & Momentum

Rolling, Torque, and Angular Momentum

PHY218 SPRING 2016 Review for Final Exam: Week 14 Final Review: Chapters 1-11, 13-14

Torque. Introduction. Torque. PHY torque - J. Hedberg

- 1 -APPH_MidTerm. Mid - Term Exam. Part 1: Write your answers to all multiple choice questions in this space. A B C D E A B C D E

Exam 3 PREP Chapters 6, 7, 8

Chapter 12: Rotation of Rigid Bodies. Center of Mass Moment of Inertia Torque Angular Momentum Rolling Statics

Chap. 10: Rotational Motion

Review for 3 rd Midterm

PHYS 1303 Final Exam Example Questions

I pt mass = mr 2 I sphere = (2/5) mr 2 I hoop = mr 2 I disk = (1/2) mr 2 I rod (center) = (1/12) ml 2 I rod (end) = (1/3) ml 2

Advanced Higher Physics. Rotational motion

Solution Only gravity is doing work. Since gravity is a conservative force mechanical energy is conserved:

PHYSICS - CLUTCH CH 13: ROTATIONAL EQUILIBRIUM.

Definition. is a measure of how much a force acting on an object causes that object to rotate, symbol is, (Greek letter tau)

Simple and Physical Pendulums Challenge Problem Solutions

Physics 8 Friday, October 20, 2017

Unit 9 Rotational Motion & Torque

Rotational Motion What is the difference between translational and rotational motion? Translational motion.

FALL TERM EXAM, PHYS 1211, INTRODUCTORY PHYSICS I Saturday, 14 December 2013, 1PM to 4 PM, AT 1003

Do not fill out the information below until instructed to do so! Name: Signature: Student ID: Section Number:

Class XI Chapter 7- System of Particles and Rotational Motion Physics

Physics 201 Midterm Exam 3

t = g = 10 m/s 2 = 2 s T = 2π g

Lecture 14. Rotational dynamics Torque. Give me a lever long enough and a fulcrum on which to place it, and I shall move the world.

University Physics (Prof. David Flory) Chapt_11 Thursday, November 15, 2007 Page 1

Angular velocity and angular acceleration CHAPTER 9 ROTATION. Angular velocity and angular acceleration. ! equations of rotational motion

Chapter 8 continued. Rotational Dynamics

Phys101 Second Major-173 Zero Version Coordinator: Dr. M. Al-Kuhaili Thursday, August 02, 2018 Page: 1. = 159 kw

Transcription:

AP PHYSICS Name: Period: Date: 50 Multiple Choice 45 Single Response 5 Multi-Response Free Response 3 Short Free Response 2 Long Free Response MULTIPLE CHOICE DEVIL PHYSICS BADDEST CLASS ON CAMPUS AP EXAM CHAPTER TEST 90 min, 1 point each 25 Multiple Choice 45 min 22 Single Response 3 Multi-Response 90 min Free Response 13 min ea, 7 pts ea 2 Short Free Response 25 min ea, 12 pts ea 1 Long Free Response CHAPTER 8 TEST REVIEW MARKSCHEME 1. Torque a. is the vector product of moment arm and force. b. is a scalar and has no direction associated with it. c. is always equal to force. d. is always greater for shorter lever arms. e. must always equal zero F 45 min 12 min ea, 7 pts ea 20 min ea, 12 pts ea 2. A wrench is used to tighten a nut as shown. A 12.0 N force F is applied 0.07 m from the axis of rotation. In units of torque, what is the torque due to the applied force? a. 0.58 b. 0.84 c. 1.71 d. 84.0 e. 171.0 X 0.07 m Y Z 3. A uniform plank of length XY is supported by two equal 120 N forces at X and Y as shown. The support at X is then moved to Z (which is halfway to the plank center). What is the new force at Y after that move is completed? a. 40 N b. 60 N Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 1 of 12

c. 80 N d. 160 N e. 240 N 3.0 kg b 1.0 kg a 4. A 3.0 kg ball and a 1.0 kg ball are placed at opposite ends of a massless beam so that the system is in equilibrium as shown (not drawn to scale). What is the ratio of length b to length a? a. 2.0 b. 2.5 c. 3.0 d. 4.0 e. 5.0 5. ( /1) When a net torque is applied to a solid object, it has a tendency to produce what? a. static equilibrium b. constant velocity c. rotational stability d. rotation about an axis e. linear acceleration 6. What is an equivalent unit for torque? a. kg m 2 s 2 b. kg 2 m 3 s c. kg 2 m 2 s 3 d. m 2 s 2 e. kg m 2 s 3 7. A uniform wooden ladder leans against a wall as shown. If the lader is not to slip, which one of the following statements must be true? a. Only the coefficient of friction between the ladder and the wall must not be zero. b. Only the coefficient of friction between the ladder and the floor must not be zero. c. Both the coefficients of friction between the ladder and the wall and the ladder and the floor must not be zero. d. The floor s normal force provides the necessary force to keep the ladder from slipping. Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 2 of 12

e. Both statements (A) and (B) are correct. peg 30 8. A uniform board is 30 m long and weighs 100.0N. It rests with its upper end against a smooth vertical wall, and its lower end rests on the ground as shown. The board is prevented from slipping by a peg drivien in the ground at the lower end of the ladder, and the board makes an angle of 30 with the horizontal. Which one of the following is the approximate force exerted on the board by the wall? a. 12.0 N b. 18.0 N c. 50.0 N d. 87.0 N e. 150.0 N A B C D E 3 kg 4 kg 9. Two blocks of mass 3 kg and 4 kg hang from the ends of a rod of negligible mass which is marked in seven equal parts as shown. At which of the points indicated should a string be attached if the rod is to remain horizontal when suspended from the string? a. C b. E c. A d. D e. B F 4 F 3 F 2 F 5 F 1 10. The figure above shows a flat object lying on a table of neglibible friction. Five forces are separately applied to the object shown. Which of the five forces will NOT cause the object to rotate about the center of the object? a. F1 b. F2 Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 3 of 12

c. F3 d. F4 e. F5 l L m θ 11. The figure above shows a mass m sitting on the end of a massless rod which is pivoted on a fulcrum as shown. A string is tied at an angle θ from the horizontal at the right end of the rod to keep the rod from rotating. Which of the following is a correct equation for finding the tension FT in the string? a. mgl = F T l b. mgl = F T l cos θ c. mgl = F T l sin θ d. mg = F T e. mg = F T sin θ 12. A point mass m is undergoing uniform circular motion with an angular frequency ω in a horizontal circle of radius r. Which of the following is a representation of the angular momentum of the mass? a. mr 2 ω b. mr 2 ω c. ω 2 r m d. mrω e. mω 13. A skater extends her arms, holding a 2 kg mass in each hand. She is rotating about a vertical axis at a given rate. She brings her arms inward toward her body in such a way that the distance of each mass from the axis changes from 1 m to 0.50 m. Her rate of rotation (neglecting the mass of the skater) will a. remain the same b. be quartered c. be halved d. be doubled e. be quadrupled 14. A 1 kg mass swings in a vertical circle after having been released fom a horizontal position with zero velocity. The mass is attached to a massless rigid rod of length 1.5 m. The angular momentum of the mass, in kilogram square meters per second, when it is in its lowest position is approximately a. 4 b. 5 c. 8 d. 10 e. 12 15. A rock with a mass of 50 g is swung overhead in a horizontal circle of radius 0.3 m at a constant rate of 5 revolutions per seond. The angular momentum of the rock is a. 0.14 kg m 2 /s Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 4 of 12

b. 0.0056 kg m 2 /s c. 0.32 kg m 2 /s d. 1.32 kg m 2 /s e. 2.45 kg m 2 /s R1 R2 F2 16. A solid cylinder consisting of an outer radius R1 and an inner radius R2 is pivoted on a frictionless axle as shown above. A string is wound around the outer radius and is pulled to the right with a force F1 = 3 N. A second string is wound around the inner radius and is pulled down with a force F2 = 5 N. If R1 = 0.75 m and R2 = 0.35 m, what is the net torque acting on the cylinder? a. 2.25 N m b. 0.50 N m c. 2.30 N m d. 1.08 N m e. 4.00 N m Answer questions 17 and 18 based on the diagram below. The rod is considered massless. A 1.5 m C 30 30 20 N 3 m 10 N 17. What is the net torque about an axis through point A? a. 16.5 N b. 15.2 N c. 5.5 N d. 7.8 N e. 6.0 N 18. What is the net torque about an axis through point C? a. 3.5 N b. 7.5 N c. 15.2 N d. 5.9 N e. 7.0 N 19. A 2.00 kg disk is attached to massless rod and is exhibiting uniform circular motion along a horizontal path at a velocity of 4 m/s. A 400 g piece of putty is dropped in the center of the disk. What is the new velocity of the disk-putty system? a. 1.50 m/s 45 30 N Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 5 of 12

b. 2.25 m/s c. 3.30 m/s d. 4.00 m/s e. 5.00 m/s 20. What is the angular velocity of a point on an object in uniform rotational motion that has a frequency of 45 revolutions per minute? a. 0.75 rad/s b. 1.5 rad/s c. 2 3 π rad/s d. 1.5π rad/s e. 90π rad/s 21. What is the magnitude of the total linear acceleration of a particle 12 cm from the axis of rotation and rotating with an angular velocity of 44 rad/s and an angular acceleration of 250 rad/s 2? a. 35 m/s 2 b. 18 m/s 2 c. 223 m/s 2 d. 234 m/s 2 e. 512 m/s 2 22. What is the radial acceleration of an object at a point 25 m from the axis of rotation that has a period of 0.22 seconds? a. 10,000 m/s 2 b. 20,000 m/s 2 c. 40,000 m/s 2 d. 160,000 m/s 2 e. 980,000 m/s 2 23. What is the ratio of angular velocities on a rotating body at a point half a radius away from its axis of rotation to a point a radius away? a. 1:4 b. 1:2 c. 1:1 d. 2:1 e. 4:1 24. The units of hertz are equivalent to I. radians/second II. revolutions/second III. second -1 a. I b. II c. III d. I and II e. II and III Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 6 of 12

25. A point on a rotating disc has a frequency of 120 Hz. What is the angular acceleration of the point for it to be moving at 30 Hz after 1 minute? a. -1.5 rad/s 2 b. - 2π 3 rad/s2 c. - 3π 2 rad/s2 d. -3πrad/s 2 e. -6 rad/s 2 26. A spherical marble of radius 3 cm rolls from rest with an angular acceleration of 4 rad/s 2. How long will it take for it to roll 100 revolutions? a. 3 s b. 7 s c. 9 s d. 14 s e. 18 s 27. What is the moment of inertia for four masses located in the x-y plane at (2m, 0m), (-2m, 0m), (0m, - 2m), (0m, 2m), each with a mass of 15 kg, uniformly rotating around the origin? a. 15 kg m 2 b. 30 kg m 2 c. 60 kg m 2 d. 120 kg m 2 e. 240 kg m 2 28. For a pulley of radius 76 cm with a moment of inertia of 46.5 kg m 2, a rope wrapped around it is pulled with a force of 15 N. What is the magnitude of angular acceleration? a. 0.013 rad/s 2 b. 0.245 rad/s 2 c. 4.08 rad/s 2 d. 11.4 rad/s 2 e. 530 rad/s 2 35 kg 35 kg 0.25 m 0.25 m 0.25 m 0.25 m 29. Two 35 kg weights are each initially halfway from the center to the endpoints of a massless 1 meter rod as shown, rotating around the rod s center at 12 rad/s. If the weights shift to the endpoints of the rod, what is the new angular velocity? a. 3 rad/s b. 6 rad/s c. 9 rad/s d. 12 rad/s e. 15 rad/s Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 7 of 12

FREE RESPONSE 30. In the laboratory, you are asked to determine the mass of a meter stick without using a scale of any kind. In addition to the meter stick, you may use any or all of the following equipment _ set of known masses _ four weight hangers tape _ fulcrum upon which string stopwatch the meterstick can be mounted and pivoted a. ( /5) Briefly list the steps in your procedure that will lead you to the mass of the meter stick. Include a diagram of the apparatus you will use and definitions of any parameters that you will measure. l1 l3 l2 COM m 1 m 2 Mount the meter stick on the fulcrum so that it is pivoted on a point other than the center of the stick. Hang two unequal weights on either side of the meter stick at such distances that the meter stick remains horizontal. Record the value of each mass and the distance from the fulcrum to each mass. Let m1 be the mass on the left and l1 be the distance from the fulcrum to m1. Likewise, let m2 be the mass on the right and l2 be the distance from the fulcrum to m2. Let COM be the center of mass of the meter stick and l3 be the distance from the fulcrum. Repeat the procedure using several different masses and distances b. ( /2) On the equipment list before part (a) place a check mark beside each piece of equipment you will need to do this experiment. c. ( /3) Show the calculations you would perform to find the mass of the meter stick. m 1 gl 1 + COMgl 3 = m 2 gl 2 Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 8 of 12

COMl 3 = m 2 l 2 m 1 l 1 COM = m 2l 2 m 1 l 1 l 3 31. A conical pendulum consists of a point mass suspended from a light string making a vertical angle θ, as shown below. The string has length l, and mass is M. The mass is undergoing uniform circular motion with an instantaneous velocity v. θ l r M a. ( /2) Draw a free-body diagram for this situation. v FT Fg b. ( /5) Derive an expression for the square of the angular momentum L in terms of M, l, g, and θ only. (This is a very challenging problem -- think lots of trig and lots of Algebra). L = Mvr r = l sin θ F Tx = F T sin θ L 2 = M 2 v 2 r 2 F T xl sin θ = v 2 F M Tx = F = Ma r 2 = l 2 sin 2 θ v 2 = ( F Tx = M v2 r F T x r F Ty = Mg M = v2 F T = Mg cos θ v 2 = gl sin2 θ cos θ Mg sin θ sin θ ) (l ) cos θ M L 2 = M 2 ( gl sin2 θ ) cos θ (l2 sin 2 θ) L 2 = M2 gl 3 sin 4 θ cos θ c. ( /2) If l = 1 m, M = 0.15 kg, and θ = 10, determine the magnitude of the angular momentum L 2 = M2 gl 3 sin 4 θ cos θ L = M2 gl 3 sin 4 θ cos θ Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 9 of 12

L = (0.15)2 (9.81)(1) 3 sin 4 (10) cos(10) = 1. 43x10 2 32. A 13 kg solid cylinder with a 54 cm diameter rolls without slipping down a 30 incline from a height of 1.25 meters. a. ( /5) If the solid cylinder has a moment of inertia of I = 1 2 (MR 2 ), what will its speed be at the base of the incline? PE = KE linear + KE rotational mgh = ( m + I cm 2 2r2) v2 I mgh = 1 2 mv 2 + 1 2 I cm ω 2 mgh = ( m + mr2 2 4r2 ) v2 = 1 2 mr2 v = ωr v r = ω gh = ( 3 4 ) v2 4gh 3 = v = 4. 0 m s mgh = 1 2 mv 2 v + 1 2 I 2 cm r 2 b. ( /X) What will its speed be if it rolls from a height of 1.25 meters down a 60 incline and how do you account for this? The speed will be the same since energy is dependent only on the starting height Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 10 of 12

F 0.07 m X Y 3.0 kg b 1.0 kg peg Z a F 4 F 3 l L m F 2 θ F 5 F 1 l2 l1 l3 F1 COM R1 m 1 m 2 A B C D E R2 3 kg 4 kg F2 Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 11 of 12

1.5 m 30 N 45 30 A C 30 20 N 3 m 10 N FT Fg θ l 35 kg 35 kg 0.25 m 0.25 m 0.25 m 0.25 m r M v Chapter 8 Test Review Markscheme.Docx Updated: 3-Mar-16 Page 12 of 12

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback