Quizbank/Calculus Physics I/T2study

Similar documents
Quizbank/Calculus Physics I/T3study

Quizbank/College Physics/I T3study

Quizbank/Test. CalcPhysIIT1_Study. From Wikiversity

Quizbank/College Physics/II T4study

Exam 2 Phys Fall 2002 Version A. Name ID Section

Circular Motion Test Review

Physics 2211 A & B Quiz #2 Solutions Fall P sin θ = µ k P cos θ + mg

PHYSICS 220 Lecture 04 Forces and Motion in 1 D Textbook Sections

Circular Motion Ch. 10 in your text book

Q16.: A 5.0 kg block is lowered with a downward acceleration of 2.8 m/s 2 by means of a rope. The force of the block on the rope is:(35 N, down)

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. Diagram 1 A) B - A. B) A - B. C) A + B. D) A B.

Physics 1A Lecture 4B. "Fig Newton: The force required to accelerate a fig inches per second. --J. Hart

1. A sphere with a radius of 1.7 cm has a volume of: A) m 3 B) m 3 C) m 3 D) 0.11 m 3 E) 21 m 3

Physics 2211 M Quiz #2 Solutions Summer 2017

MASSACHUSETTS INSTITUTE OF TECHNOLOGY Department of Physics Physics 8.01T Fall Term 2004

Lecture PowerPoints. Chapter 5 Physics for Scientists & Engineers, with Modern Physics, 4 th edition. Giancoli

AP Physics C: Mechanics Practice (Newton s Laws including friction, resistive forces, and centripetal force).

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

An object moving in a circle with radius at speed is said to be undergoing.

Phys101 Second Major-131 Zero Version Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 1

FRICTIONAL FORCES. Direction of frictional forces... (not always obvious)... CHAPTER 5 APPLICATIONS OF NEWTON S LAWS

66 Chapter 6: FORCE AND MOTION II

ω = k/m x = A cos (ωt + ϕ 0 ) L = I ω a x = ω 2 x P = F v P = de sys J = F dt = p w = m g F G = Gm 1m 2 D = 1 2 CρAv2 a r = v2

3. What type of force is the woman applying to cart in the illustration below?

Lecture 10. Example: Friction and Motion

PHYS 124 Section A1 Mid-Term Examination Spring 2006 SOLUTIONS

5. Use the graph below to determine the displacement of the object at the end of the first seven seconds.

Friction is always opposite to the direction of motion.

PHYSICS 221 SPRING EXAM 1: February 20, 2014; 8:15pm 10:15pm

A. B. C. D. E. v x. ΣF x

Chapter 4. Forces and Newton s Laws of Motion. continued

Physics 111: Mechanics Lecture 9

An object moves back and forth, as shown in the position-time graph. At which points is the velocity positive?

ΣF=ma SECOND LAW. Make a freebody diagram for EVERY problem!

= 40 N. Q = 60 O m s,k

PHYS 1303 Final Exam Example Questions

ω = k/m x = A cos (ωt + ϕ 0 ) L = I ω a x = ω 2 x P = F v P = de sys J = F dt = p w = m g F G = Gm 1m 2 D = 1 2 CρAv2 a r = v2

Physics B Newton s Laws AP Review Packet

Lecture Outline Chapter 6. Physics, 4 th Edition James S. Walker. Copyright 2010 Pearson Education, Inc.

P F = ma Newton's Laws Hmk

Hint 1. The direction of acceleration can be determined from Newton's second law

Exam 1 Solutions. Kinematics and Newton s laws of motion

AP Physics Free Response Practice Dynamics

Honors Physics Review

Use the following to answer question 1:

1 A car moves around a circular path of a constant radius at a constant speed. Which of the following statements is true?

A. true. 6. An object is in motion when

PSI AP Physics B Dynamics

Old Exam. Question Chapter 7 072

AP* Circular & Gravitation Free Response Questions

Chapter 8. Centripetal Force and The Law of Gravity

Chapter Test A. Teacher Notes and Answers Forces and the Laws of Motion. Assessment

General Physics Physics 101 Test #2 Spring 2017 Wednesday 3/1/17 Prof. Bob Ekey

Chapter 4. Forces and Newton s Laws of Motion. continued

Rotation. PHYS 101 Previous Exam Problems CHAPTER

Web practice Chapter 4 Newton's Laws of Motion

Physics Lecture 12. P. Gutierrez. Department of Physics & Astronomy University of Oklahoma

Quantitative Skills in AP Physics 1

Uniform Circular Motion

is acting on a body of mass m = 3.0 kg and changes its velocity from an initial

Physics 2211 ABC Quiz #3 Solutions Spring 2017

Exam I Physics 101: Lecture 08 Centripetal Acceleration and Circular Motion Today s lecture will cover Chapter 5 Exam I is Monday, Oct. 7 (2 weeks!

OPEN ONLY WHEN INSTRUCTED

Chapter 2. Forces & Newton s Laws

Reading Quiz. Chapter 5. Physics 111, Concordia College

Figure 5.1a, b IDENTIFY: Apply to the car. EXECUTE: gives.. EVALUATE: The force required is less than the weight of the car by the factor.

Newton s Laws Pre-Test

UNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics

Chapter 5 Applying Newton s Laws

Assignment 4.2 Frictional Forces CONCEPTUAL QUESTIONS: 1. What is the SI unit of the coefficient of friction (μ s or μ k )?

Rotation Quiz II, review part A

Physics 23 Exam 2 March 3, 2009

TYPICAL NUMERIC QUESTIONS FOR PHYSICS I REGULAR QUESTIONS TAKEN FROM CUTNELL AND JOHNSON CIRCULAR MOTION CONTENT STANDARD IB

Concept of Force and Newton s Laws of Motion

Physics 101: Lecture 08. Common Incorrect Forces (Spooky Rules!) Items below are NOT forces Acceleration: F Net = ma Centripetal Acceleration

Page 1. Name: Section This assignment is due at the first class in 2019 Part I Show all work!

4) Vector = and vector = What is vector = +? A) B) C) D) E)

UNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics

A hockey puck slides on ice at constant velocity. What is the net force acting on the puck?

1. A train moves at a constant velocity of 90 km/h. How far will it move in 0.25 h? A. 10 km B km C. 25 km D. 45 km E. 50 km

Circular Motion. 2 types of Acceleration. Centripetal Force and Acceleration. In a circle. Constant Velocity vs. Constant Speed.

Name: Class: Date: d. none of the above

9/20/11. Physics 101 Tuesday 9/20/11 Class 8" Chapter " Weight and Normal forces" Frictional Forces"

PHY 2048 Final Exam Review DISCLAIMER - I am a student and there could potentially be errors in the solutions.

Circular Motion PreTest

Review PHYS114 Chapters 4-7

The next two questions pertain to the situation described below.

UNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics

PHYS 1303 Final Exam Example Questions

Physics 201, Practice Midterm Exam 3, Fall 2006

University Physics (Prof. David Flory) Chapt_06 Saturday, October 06, 2007 Page 1

Circular Motion and Gravitation

Circular Velocity and Centripetal Acceleration

Physics 116A, Section 2, Second Exam Version B, February 26, Name (Please print)

SPH3U1 - Dynamics Problems Set 3

Physics 116A, Section 2, Second Exam A, February 26, Name (Please print)

v (m/s) 10 d. displacement from 0-4 s 28 m e. time interval during which the net force is zero 0-2 s f. average velocity from 0-4 s 7 m/s x (m) 20

Physics: Momentum, Work, Energy, Power

AP Physics C Summer Assignment Kinematics

b. What is the force of red team on right side of the rope? c. Is it the same as the blue team? d. What is the Sum of the Forces?

Transcription:

Quizbank/Calculus Physics I/T2study From Wikiversity CalcPhys1T2_Study If you are reading this as a Wikiversity page, proper pagebreaks should result if printed using your browser's print option. On Chrome, Explorer, and Firefox, this option is available in the upper right hand corner of your screen. But, pagebreaks do not render properly if you use "Printable version" on Wikiversity's Print/export option on the left hand sidebar. This document contains either a study guide OR pairs of exams taken from the same exam bank If two exams have the same s number, then v1 and v2 have the same questions, presented in different (random) order. Exams with different s numbers have different questions and may not have the same difficulty. Click items in the table of contents and appropriate page should be reached. This feature should allow you to print only those pages that you need. At the end of this document Attribution for the quizzes identifies where the questions were obtained Study guide links reading materials and/or relevant equations. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 1/26

CalcPhys1T2_Study v1s1 1. A sled of mass 5.5 kg is at rest on a rough surface. A string pulls with a tension of 46.8N at an angle of 40 degress above the horizontal. What is the magnitude of the friction? a) 27.11 N. b) 31.17 N. c) 35.85 N. d) 41.23 N. e) 47.41 N. 2. A sled of mass 5.2 kg is at rest on a rough surface. A string pulls with a tension of 45.3N at an angle of 59 degress above the horizontal. What is the normal force? a) 10.55 N. b) 12.13 N. c) 13.95 N. d) 16.04 N. e) 18.45 N. 3. A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.3N at an angle of 55 degress above the horizontal. How long will it take to reach a speed of 9.8 m/s? a) 1.87 s b) 2.15 s c) 2.47 s d) 2.85 s e) 3.27 s https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 2/26

4. A sled of mass 2.5 kg is on perfectly smooth surface. A string pulls with a tension of 17.7N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 3.1 m/s 2? a) 48.4 degrees b) 55.7 degrees c) 64 degrees d) 73.6 degrees e) 84.7 degrees 5. In the figure shown, θ 1 is 18 degrees, and θ 3 is 35 degrees. The tension T 3 is 48 N. What is the tension, T 1? a) 31.26 N. b) 35.95 N. c) 41.34 N. d) 47.54 N. e) 54.68 N. 6. In the figure "3 tensions" shown above θ 1 is 18 degrees, and θ 3 is 35 degrees. The tension T 3 is 48 N. What is the weight? a) 40.3 N. b) 46.4 N. c) 53.3 N. d) 61.3 N. e) 70.5 N. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 3/26

7. In the figure shown, θ is 33 degrees, and the mass is 2.8 kg. What is T 2? a) 50.38 N. b) 57.94 N. c) 66.63 N. d) 76.62 N. e) 88.12 N. 8. In the figure shown, θ is 33 degrees, and the mass is 3.7 kg. What is T 1? a) 46.5 N. b) 55.8 N. c) 67 N. d) 80.4 N. e) 96.5 N. 9. In the figure shown, θ 1 is 18 degrees, and θ 3 is 29 degrees. The mass has a weight of 50 N. What is the tension, T 1? a) 34.19 N. b) 39.32 N. c) 45.21 N. d) 52 N. e) 59.79 N. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 4/26

10. A mass with weight (mg) of 49 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 54 degrees. What is the tension in the string? a) 27.5 N. b) 31.6 N. c) 36.4 N. d) 41.8 N. e) 48.1 N. 11. A mass with weight (mg) equal to 33 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 72 degrees with respect to the horizontal. What is the tension in each string? a) 9.9 N. b) 11.4 N. c) 13.1 N. d) 15.1 N. e) 17.3 N. 12. A 2.4 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.68. In addition to the surface friction, there is also an air drag equal to 6 N. What is the magnitude (absolute value) of the acceleration? a) 9.2 m/s 2. b) 10.5 m/s 2. c) 12.1 m/s 2. d) 13.9 m/s 2. e) 16 m/s 2. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 5/26

13. A mass with weight (mg) 6.8 newtons is on a horzontal surface. It is being pulled on by a string at an angle of 30 degrees above the horizontal, with a force equal to 2.5 newtons. If this is the maximum force before the block starts to move, what is the static coefficient of friction? a) 0.19 b) 0.23 c) 0.27 d) 0.33 e) 0.39 14. In the figure shown, the mass of m 1 is 5.1 kg, and the mass of m 2 is 2.8 kg. If the external force, F ext on m 2 is 148 N, what is the tension in the connecting string? Assume no friction is present. a) 95.5 N b) 109.9 N c) 126.4 N d) 145.3 N e) 167.1 N https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 6/26

15. In the figure shown (with m 1 = 5.1 kg, m 2 = 3.5 kg, and F ext = 135 N), what is the acceleration? Assume no friction is present. a) 13.7 m/s 2 b) 15.7 m/s 2 c) 18.1 m/s 2 d) 20.8 m/s 2 e) 23.9 m/s 2 16. Nine barefoot baseball players, with a total mass of 692 kg plays tug of war against five basketball players wearing shoes that provide a static coefficient of friction of 0.61. The net mass of the (shoed) basketball team is 406 kg. What is the maximum coefficient of the barefoot boys if they lose? a) 0.358 b) 0.394 c) 0.433 d) 0.476 e) 0.524 17. Without their shoes, members of a 9 person baseball team have a coefficient of static friction of only 0.23. But the team wins a game of tug of war due to their superior mass of 607 kg. They are playing against a 5 person basketball team with a net mass of 429 kg. What is the maximum coefficient of static friction of the basketball team? a) 0.269 b) 0.296 c) 0.325 d) 0.358 e) 0.394 https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 7/26

18. In the figure shown, the mass of m 1 is 5.7 kg, and the mass of m 2 is 2.5 kg. If the external force, F ext on m 2 is 159 N, what is the tension in the connecting string? Assume that m 1 has a kinetic coefficient of friction equal to 0.34, and that for m 2 the coefficient is 0.46. a) 82 N b) 94.3 N c) 108.5 N d) 124.8 N e) 143.5 N 19. A merry go round has an angular frequency,, equal to 0.188 rad/sec. How many minutes does it take to complete 6.5 revolutions? a) 2.74 minutes. b) 3.15 minutes. c) 3.62 minutes. d) 4.16 minutes. e) 4.79 minutes. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 8/26

20. A merry go round has a period of 0.26 minutes. What is the centripetal force on a 53.3 kg person who is standing 1.35 meters from the center? a) 7.7 newtons. b) 8.8 newtons. c) 10.2 newtons. d) 11.7 newtons. e) 13.4 newtons. 21. A merry go round has a period of 0.34 minutes. What is the minimum coefficient of static friction that would allow a 51.4 kg person to stand3.09 meters from the center, without grabbing something? a) 0.017 b) 0.02 c) 0.023 d) 0.026 e) 0.03 22. What is the gravitational acceleration on a plant that is 2.21 times more massive than Earth, and a radius that is 1.74 times greater than Earths? a) 4.1 m/s 2 b) 4.7 m/s 2 c) 5.4 m/s 2 d) 6.2 m/s 2 e) 7.2 m/s 2 https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 9/26

23. What is the gravitational acceleration on a plant that is 2.01 times more dense than Earth, and a radius that is 1.54 times greater than Earth's? a) 26.4 m/s 2 b) 30.3 m/s 2 c) 34.9 m/s 2 d) 40.1 m/s 2 e) 46.1 m/s 2 24. Is valid for uniform circular motion? 25. Is valid for uniform circular motion? 26. Is valid for uniform circular motion? https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 10/26

27. Is valid for uniform circular motion? 28. Is valid for uniform circular motion? 29. Is valid for uniform circular motion? 30. Is valid for uniform circular motion? 31. Is valid for uniform circular motion? https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 11/26

32. Is valid for uniform circular motion? 33. Is valid for uniform circular motion? 34. Is valid for uniform circular motion? 35. Is valid for uniform circular motion? https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 12/26

36. Is valid for uniform circular motion? 37. Is valid for uniform circular motion? https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 13/26

Key to CalcPhys1T2_Study v1s1 1. A sled of mass 5.5 kg is at rest on a rough surface. A string pulls with a tension of 46.8N at an angle of 40 degress above the horizontal. What is the magnitude of the friction? a) 27.11 N. b) 31.17 N. +c) 35.85 N. d) 41.23 N. e) 47.41 N. 2. A sled of mass 5.2 kg is at rest on a rough surface. A string pulls with a tension of 45.3N at an angle of 59 degress above the horizontal. What is the normal force? a) 10.55 N. +b) 12.13 N. c) 13.95 N. d) 16.04 N. e) 18.45 N. 3. A sled of mass 5.2 kg is at rest on a perfectly smooth surface. A string pulls with a tension of 41.3N at an angle of 55 degress above the horizontal. How long will it take to reach a speed of 9.8 m/s? a) 1.87 s +b) 2.15 s c) 2.47 s d) 2.85 s e) 3.27 s https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 14/26

4. A sled of mass 2.5 kg is on perfectly smooth surface. A string pulls with a tension of 17.7N. At what angle above the horizontal must the string pull in order to achieve an accelerations of 3.1 m/s 2? a) 48.4 degrees b) 55.7 degrees +c) 64 degrees d) 73.6 degrees e) 84.7 degrees 5. In the figure shown, θ 1 is 18 degrees, and θ 3 is 35 degrees. The tension T 3 is 48 N. What is the tension, T 1? a) 31.26 N. b) 35.95 N. +c) 41.34 N. d) 47.54 N. e) 54.68 N. 6. In the figure "3 tensions" shown above θ 1 is 18 degrees, and θ 3 is 35 degrees. The tension T 3 is 48 N. What is the weight? +a) 40.3 N. b) 46.4 N. c) 53.3 N. d) 61.3 N. e) 70.5 N. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 15/26

7. In the figure shown, θ is 33 degrees, and the mass is 2.8 kg. What is T 2? +a) 50.38 N. b) 57.94 N. c) 66.63 N. d) 76.62 N. e) 88.12 N. 8. In the figure shown, θ is 33 degrees, and the mass is 3.7 kg. What is T 1? a) 46.5 N. +b) 55.8 N. c) 67 N. d) 80.4 N. e) 96.5 N. 9. In the figure shown, θ 1 is 18 degrees, and θ 3 is 29 degrees. The mass has a weight of 50 N. What is the tension, T 1? a) 34.19 N. b) 39.32 N. c) 45.21 N. d) 52 N. +e) 59.79 N. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 16/26

10. A mass with weight (mg) of 49 newtons is suspended symmetrically from two strings. The angle between the two strings (i.e. where they are attached to the mass) is 54 degrees. What is the tension in the string? +a) 27.5 N. b) 31.6 N. c) 36.4 N. d) 41.8 N. e) 48.1 N. 11. A mass with weight (mg) equal to 33 newtons is suspended symmetrically from two strings. Each string makes the (same) angle of 72 degrees with respect to the horizontal. What is the tension in each string? a) 9.9 N. b) 11.4 N. c) 13.1 N. d) 15.1 N. +e) 17.3 N. 12. A 2.4 kg mass is sliding along a surface that has a kinetic coefficient of friction equal to 0.68. In addition to the surface friction, there is also an air drag equal to 6 N. What is the magnitude (absolute value) of the acceleration? +a) 9.2 m/s 2. b) 10.5 m/s 2. c) 12.1 m/s 2. d) 13.9 m/s 2. e) 16 m/s 2. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 17/26

13. A mass with weight (mg) 6.8 newtons is on a horzontal surface. It is being pulled on by a string at an angle of 30 degrees above the horizontal, with a force equal to 2.5 newtons. If this is the maximum force before the block starts to move, what is the static coefficient of friction? a) 0.19 b) 0.23 c) 0.27 d) 0.33 +e) 0.39 14. In the figure shown, the mass of m 1 is 5.1 kg, and the mass of m 2 is 2.8 kg. If the external force, F ext on m 2 is 148 N, what is the tension in the connecting string? Assume no friction is present. +a) 95.5 N b) 109.9 N c) 126.4 N d) 145.3 N e) 167.1 N https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 18/26

15. In the figure shown (with m 1 = 5.1 kg, m 2 = 3.5 kg, and F ext = 135 N), what is the acceleration? Assume no friction is present. a) 13.7 m/s 2 +b) 15.7 m/s 2 c) 18.1 m/s 2 d) 20.8 m/s 2 e) 23.9 m/s 2 16. Nine barefoot baseball players, with a total mass of 692 kg plays tug of war against five basketball players wearing shoes that provide a static coefficient of friction of 0.61. The net mass of the (shoed) basketball team is 406 kg. What is the maximum coefficient of the barefoot boys if they lose? +a) 0.358 b) 0.394 c) 0.433 d) 0.476 e) 0.524 17. Without their shoes, members of a 9 person baseball team have a coefficient of static friction of only 0.23. But the team wins a game of tug of war due to their superior mass of 607 kg. They are playing against a 5 person basketball team with a net mass of 429 kg. What is the maximum coefficient of static friction of the basketball team? a) 0.269 b) 0.296 +c) 0.325 d) 0.358 e) 0.394 https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 19/26

18. In the figure shown, the mass of m 1 is 5.7 kg, and the mass of m 2 is 2.5 kg. If the external force, F ext on m 2 is 159 N, what is the tension in the connecting string? Assume that m 1 has a kinetic coefficient of friction equal to 0.34, and that for m 2 the coefficient is 0.46. a) 82 N b) 94.3 N +c) 108.5 N d) 124.8 N e) 143.5 N 19. A merry go round has an angular frequency,, equal to 0.188 rad/sec. How many minutes does it take to complete 6.5 revolutions? a) 2.74 minutes. b) 3.15 minutes. +c) 3.62 minutes. d) 4.16 minutes. e) 4.79 minutes. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 20/26

20. A merry go round has a period of 0.26 minutes. What is the centripetal force on a 53.3 kg person who is standing 1.35 meters from the center? a) 7.7 newtons. b) 8.8 newtons. c) 10.2 newtons. +d) 11.7 newtons. e) 13.4 newtons. 21. A merry go round has a period of 0.34 minutes. What is the minimum coefficient of static friction that would allow a 51.4 kg person to stand3.09 meters from the center, without grabbing something? a) 0.017 b) 0.02 c) 0.023 d) 0.026 +e) 0.03 22. What is the gravitational acceleration on a plant that is 2.21 times more massive than Earth, and a radius that is 1.74 times greater than Earths? a) 4.1 m/s 2 b) 4.7 m/s 2 c) 5.4 m/s 2 d) 6.2 m/s 2 +e) 7.2 m/s 2 https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 21/26

23. What is the gravitational acceleration on a plant that is 2.01 times more dense than Earth, and a radius that is 1.54 times greater than Earth's? a) 26.4 m/s 2 +b) 30.3 m/s 2 c) 34.9 m/s 2 d) 40.1 m/s 2 e) 46.1 m/s 2 24. Is valid for uniform circular motion? + a) Yes b) No 25. Is valid for uniform circular motion? + a) Yes b) No 26. Is valid for uniform circular motion? + a) Yes b) No https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 22/26

27. Is valid for uniform circular motion? + a) Yes b) No 28. Is valid for uniform circular motion? + a) Yes b) No 29. Is valid for uniform circular motion? + a) Yes b) No 30. Is valid for uniform circular motion? + a) Yes b) No 31. Is valid for uniform circular motion? a) Yes + b) No https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 23/26

32. Is valid for uniform circular motion? a) Yes + b) No 33. Is valid for uniform circular motion? a) Yes + b) No 34. Is valid for uniform circular motion? a) Yes + b) No 35. Is valid for uniform circular motion? a) Yes + b) No https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 24/26

36. Is valid for uniform circular motion? a) Yes + b) No 37. Is valid for uniform circular motion? a) Yes + b) No https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 25/26

Attribution (for quiz questions) under CC by SA license http://en.wikiversity.org/w/index.php?title=physics_equations/18 Electric_charge_and_field/Q:findE&oldid=1378605 https://en.wikiversity.org/w/index.php?title=physics_equations/06 Uniform_Circular_Motion_and_Gravitation/Q:derive&oldid=1411691 Study guide http://en.wikiversity.org/wiki/physics_equations/sheet/all_chapters Physics_equations#Uniform_Circular_Motion_and_Gravitation Retrieved from "https://en.wikiversity.org/w/index.php? title=quizbank/calculus_physics_i/t2study&oldid=1446447" This page was last modified on 9 October 2015, at 18:21. Text is available under the Creative Commons Attribution ShareAlike License; additional terms may apply. By using this site, you agree to the Terms of Use and Privacy Policy. https://en.wikiversity.org/wiki/quizbank/calculus_physics_i/t2study 26/26

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