INSTRUCTIONS FOR USE. This file can only be used to produce a handout master:

Similar documents
Force Concept Inventory

Comprehensive Exam Session III Classical Mechanics Physics Department- Proctor: Dr. Jack Straton (Sun. Jan 11 th, 2015) (3 hours long 1:00 to 4:00 PM)

When numbers are multiplied together, you the exponents and the bases. When numbers are divided, you the exponents and the bases.

Force Concept Inventory (FCI) (revised version 1995) & Mechanics Baseline Test (MBT) Prepared by: Assoc. Prof. Dr. Jaafar Jantan a.k.a. Dr. J.J.

Physics x141 Practice Final Exam

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

Physics Attitudes, Skills, & Knowledge Survey (PASKS) Form 3

SCI 265 Spring Low Density Water High Density

Physics 8, Fall 2011, Homework #12. Due in 1W12 DRL by 5pm, Friday, December 9, 2011

What was Aristotle s view of motion? How did Galileo disagree with Aristotle? Which answers agrees with Aristotle s view? Eliminate the others.

Motor. Cable. Elevator

Physics 11 Comprehensive Exam Preparation

PHYSICS. Chapter 5 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT Pearson Education, Inc.

PHYSICS. Chapter 5 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT Pearson Education, Inc.

Twentieth SLAPT Physics Contest Southern Illinois University Edwardsville April 30, Mechanics Test

C) D) 2. The diagram below shows a worker using a rope to pull a cart.

66 Chapter 6: FORCE AND MOTION II

Physics 130: Questions to study for midterm #1 from Chapter 7

PRACTICE TEST for Midterm Exam

Semester 1 Final Exam Review Answers

Semester 1 Final Exam Review Answers

P11 Dynamics 1 Forces and Laws of Motion Bundle.notebook October 14, 2013

BROCK UNIVERSITY. Course: PHYS 1P21/1P91 Number of students: 234 Examination date: 5 December 2014 Number of hours: 3

Regents Physics. Physics Midterm Review - Multiple Choice Problems

PSI AP Physics B Dynamics

Chapter 5 Force and Motion

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

Exam #2, Chapters 5-7 PHYS 101-4M MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

1. Which one of the following situations is an example of an object with a non-zero kinetic energy?

Practice Honors Physics Test: Newtons Laws

ConcepTest PowerPoints

Circle correct course: PHYS 1P21 or PHYS 1P91 BROCK UNIVERSITY

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

Energy and Momentum Review Problems

Dynamics Multiple Choice Homework

1. (P2.1A) The picture below shows a ball rolling along a table at 1 second time intervals. What is the object s average velocity after 6 seconds?

Midterm Review. January 07, Grade:«11-12» Subject:Honors Physics. Date:«1/7-1/8 2015»

Final Exam Review Answers

1. A 7.0-kg bowling ball experiences a net force of 5.0 N. What will be its acceleration? a. 35 m/s 2 c. 5.0 m/s 2 b. 7.0 m/s 2 d. 0.

Page 1. Name:

Topic 2 Revision questions Paper

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

Chapter 4: Forces and Newton's Laws of Motion Tuesday, September 17, :00 PM

PHYS 101 Previous Exam Problems. Force & Motion I

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.

3/10/2019. What Is a Force? What Is a Force? Tactics: Drawing Force Vectors

Section /07/2013. PHY131H1F University of Toronto Class 9 Preclass Video by Jason Harlow. Based on Knight 3 rd edition Ch. 5, pgs.

1 In the absence of a net force, a moving object will. slow down and eventually stop stop immediately turn right move with constant velocity turn left

AP Physics 1 Multiple Choice Questions - Chapter 4

4 Study Guide. Forces in One Dimension Vocabulary Review

LAHS Physics Semester 1 Final Practice Multiple Choice

Chapter 4 Force and Motion

Midterm Prep. 1. Which combination correctly pairs a vector quantity with its corresponding unit?

The net force on a moving object is suddenly reduced to zero. As a consequence, the object

December 2015 Exam Review July :39 AM. Here are solutions to the December 2014 final exam.

What Is a Force? Slide Pearson Education, Inc.

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

Physics Semester 2 Final Exam Review Answers

2. If a net horizontal force of 175 N is applied to a bike whose mass is 43 kg what acceleration is produced?

Exam 2--PHYS 101--F17

3) Which of the following quantities has units of a displacement? (There could be more than one correct choice.)

Chapter 4 Newton s Laws

HATZIC SECONDARY SCHOOL PROVINCIAL EXAMINATION ASSIGNMENT ENERGY & MOMENTUM MULTIPLE CHOICE / 30 OPEN ENDED / 79 TOTAL / 109 NAME:

QuickCheck 1.5. An ant zig-zags back and forth on a picnic table as shown. The ant s distance traveled and displacement are

REVIEW SET 2 MIDTERM 2

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

Base your answers to questions 5 and 6 on the information below.

*************************************************************************

PHYS 101 Previous Exam Problems. Kinetic Energy and

Dynamics-Newton's 2nd Law

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

The graph shows how an external force applied to an object of mass 2.0 kg varies with time. The object is initially at rest.

2017 PHYSICS FINAL REVIEW PACKET EXAM BREAKDOWN

Dynamics-Newton's 2nd Law

AP Physics 1 - Test 05 - Force and Motion

Show all workings for questions that involve multiple choice.

Science 20 Physics Review

Physics Midterm Review KEY

CPS lesson Work and Energy ANSWER KEY

6. Find the centripetal acceleration of the car in m/s 2 a b c d e. 32.0

2) A car accelerates from 5.0 m/s to 21 m/s at a rate of 3.0 m/s 2. How far does it travel while accelerating? A) 207 m B) 117 m C) 41 m D) 69 m

Phys , Fall04,Term 1 Exercise Problems

3. How long must a 100 N net force act to produce a change in momentum of 200 kg m/s? (A) 0.25 s (B) 0.50 s (C) 1.0 s (D) 2.0 s (E) 4.

AP Physics 1 Work Energy and Power Practice Test Name

WS-CH-4 Motion and Force Show all your work and equations used. Isaac Newton ( )

REVIEW SET 2 MIDTERM 2

Practice Test for Midterm Exam

(f ) From the graph, obtain the height of the tube given the mass of the dart is 20 grams and the constant force applied in the tube is 2 newtons.

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

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

A) more mass and more inertia C) the same as the magnitude of the rock's weight C) a man standing still on a bathroom scale

A Question about free-body diagrams

Physics 11 Review Questions

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

Slide 1 / A train moves at a constant velocity of 90 km/h. How far will it move in 0.25 h? 10 km 22.5 km 25 km 45 km 50 km

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

Constants: Acceleration due to gravity = 9.81 m/s 2

Constants: Acceleration due to gravity = 9.81 m/s 2

F 2 = 26 N.What third force will cause the object to be in equilibrium (acceleration equals zero)?

(1) +0.2 m/s (2) +0.4 m/s (3) +0.6 m/s (4) +1 m/s (5) +0.8 m/s

Transcription:

INSTRUCTIONS FOR USE This file can only be used to produce a handout master: Use print from the File menu to make a printout of the test. You may not modify the contents of this file. IMPORTANT NOTICE: You may print this test to evaluate your student s learning, provided you safeguard the integrity of this test as a diagnostic instrument. Students must return all copies of the test to the instructor after completing the test. Since the test is used at many institutions it is important to prevent student circulation of the questions or the answer key. The author suggests not referring to this test by its name so as to shield the original literature from the students. Instead, a more generic name such as Diagnostic Test may be used.

DIAGNOSTIC TEST 1. Two metal balls are the same size but one weighs twice as much as the other.the balls are dropped from the roof of a single story building at the same instant. The time it takes the balls to reach the ground below will be 1. about half as long for the heavier ball as for the lighter one. 2. about half as long for the lighter ball as for the heavier one. 3. about the same for both balls. 4. considerably less for the heavier ball, but not necessarily half as long. 5. considerably less for the lighter ball, but not necessarily half as long. 2. The two metal balls of the previous problem roll off a horizontal table with the same speed. In this situation 1. both balls hit the floor at approximately the same horizontal distance from the base of the table. 2. the heavier ball hits the floor at about half the horizontal distance from the base of the table than does the lighter ball. 3. the lighter ball hits the floor at about half the horizontal distance from the base of the table than does the heavier ball. 4. the heavier ball hits the floor considerably closer to the base of the table than the lighter ball, but not necessarily at half the horizontal distance. 5. the lighter ball hits the floor considerably closer to the base of the table than the heavier ball, but not necessarily at half the horizontal distance. 3. A stone dropped from the roof of a single-story building to the surface of Earth 1. reaches a maximum speed quite soon after release and then falls at a constant speed thereafter. 2. speeds up as it falls because the gravitational attraction gets considerably stronger as the stone gets closer to Earth. 3. speeds up because of an almost constant force of gravity acting upon it. 4. falls because of the natural tendency of all objects to rest on the surface of Earth. 5. falls because of the combined effects of the force of gravity pushing it downward and the force of the air pushing it downward.

4.A large truck collides head-on with a small compact car. During the collision 1. the truck exerts a greater amount of force on the car than the car exerts on the truck. 2. the car exerts a greater amount of force on the truck than the truck exerts on the car. 3. neither exerts a force on the other, the car gets smashed simply because it gets in the way of the truck. 4. the truck exerts a force on the car but the car does not exert a force on the truck. 5. the truck exerts the same amount of force on the car as the car exerts on the truck. Use the statement and figure below to answer the next two questions (5 and 6). The accompanying figure shows a frictionless channel in the shape of a segment of a circle with its center at O. The channel has been anchored to a frictionless horizontal table top. You are looking down at the table. Forces exerted by the air are negligible. A ball is shot at high speed into the channel at P and exits at R. P O R Q 5.Consider the following distinct forces: A. a downward force of gravity. B. a force exerted by the channel pointing from Q to O. C. a force in the direction of motion. D. a force pointing from O to Q. Which of the above forces is (are) acting on the ball when it is within the frictionless channel at position Q? 1. A only. 2. A and B. 3. A and C. 4. A, B, and C. 5. A, C, and D.

6. Which of the paths 1 5 below would the ball most closely follow after it exits the channel at R and moves across the frictionless table top? 2 1 3 4 O R 5 7. A steel ball is attached to a string and is swung in a circular path in a horizontal plane as illustrated in the figure below. At point P, the string suddenly breaks near the ball. If these events are observed from directly above, which of the paths 1 5 below would the ball most closely follow after the string breaks? 1 2 P 3 4 5

Use the statement and figure below to answer the next four questions (8 11). The figure depicts a hockey puck sliding with constant speed v o in a straight line from point to P to point Q on a frictionless horizontal surface. Forces exerted by the air are negligible. You are looking down on the puck. When the puck reaches point Q, it receives a swift horizontal kick in the direction of the heavy print arrow. Had the puck been at rest at point P, then the kick would have set the puck in horizontal motion with a speed v k in the direction of the kick. P Q 8. Which of the paths 1 5 below would the puck most closely follow after receiving the kick? 1 2 3 4 5 9. The speed of the puck just after it receives the kick is 1. equal to the speed v o it had before it received the kick. 2. equal to the speed v k resulting from the kick and independent of the speed v o. 3. equal to the arithmetic sum of the speeds v o and v k. 4. smaller than either of the speeds v o or v k. 5. greater than either of the speeds v o or v k, but less than the arithmetic sum of these two speeds.

10. Along the frictionless path you have chosen in question 8, the speed of the puck after receiving the kick 1. is constant. 2. continuously increases. 3. continuously decreases. 4. increases for a while and decreases thereafter. 5. is constant for a while and decreases thereafter. 11. Along the frictionless path you have chosen in question 8, the main force(s) acting on the puck after receiving the kick is (are) 1. a downward force of gravity. 2. a downward force of gravity, and a horizontal force in the direction of motion. 3. a downward force of gravity, an upward force exerted by the surface, and a horizontal force in the direction of motion. 4. a downward force of gravity and an upward force exerted by the surface. 5. none. (No forces act on the puck.) 12. A ball is fired by a cannon from the top of a cliff as shown below.which of the paths 1 5 would the cannon ball most closely follow? 2 3 4 5 1

13. A boy throws a steel ball straight up. Consider the motion of the ball only after it has left the boy s hand but before it touches the ground, and assume that forces exerted by the air are negligible. For these conditions, the force(s) acting on the ball is (are) 1. a downward force of gravity along with a steadily decreasing upward force. 2. a steadily decreasing upward force from the moment it leaves the boy s hand until it reaches its highest point; on the way down there is a steadily increasing downward force of gravity as the ball gets closer to Earth. 3. an almost constant downward force of gravity along with an upward force that steadily decreases until the ball reaches its highest point; on the way down there is only an almost constant downward force of gravity. 4. an almost constant downward force of gravity only. 5. none of the above. The ball falls back to ground because of its natural tendency to rest on the surface of the Earth. 14. A bowling ball accidentally falls out of the cargo bay of an airliner as it flies along in a horizontal direction. As observed by a person standing on the ground and viewing the plane as in the figure below, which of the paths 1 5 would the bowling ball most closely follow after leaving the airplane? 1 2 3 4 5

Use the statement and figure below to answer the next two questions (15 and 16). A large truck breaks down out on the road and receives a push back into town by a small compact car as shown in the figure below. 15. While the car, still pushing the truck, is speeding up to get up to cruising speed, 1. the amount of force with which the car pushes on the truck is equal to that with which the truck pushes back on the car. 2. the amount of force with which the car pushes on the truck is smaller than that with which the truck pushes back on the car. 3. the amount of force with which the car pushes on the truck is greater than that with which the truck pushes back on the car. 4. the car s engine is running so the car pushes against the truck, but the truck s engine is not running so the truck cannot push back against the car. The truck is pushed forward simply because it is in the way of the car. 5. neither the car nor the truck exerts any force on the other.the truck is pushed forward simply because it is in the way of the car. 16. After the car reaches the constant cruising speed at which its driver wishes to push the truck, 1. the amount of force with which the car pushes on the truck is equal to that with which the truck pushes back on the car. 2. the amount of force with which the car pushes on the truck is smaller than that with which the truck pushes back on the car. 3. the amount of force with which the car pushes on the truck is greater than that with which the truck pushes back on the car. 4. the car s engine is running so the car pushes against the truck, but the truck s engine is not running so the truck cannot push back against the car. The truck is pushed forward simply because it is in the way of the car. 5. neither the car nor the truck exerts any force on the other.the truck is pushed forward simply because it is in the way of the car.

17. An elevator is being lifted up an elevator shaft at a constant speed by a steel cable as shown in the following figure. All frictional effects are negligible. In this situation, forces on the elevator are such that 1. the upward force by the cable is greater than the downward force of gravity. 2. the upward force by the cable is equal to the downward force of gravity. 3. the upward force by the cable is smaller than the downward force of gravity. 4. the upward force by the cable is greater than the sum of the downward force of gravity and a downward force due to the air. 5. none of the above. (The elevator goes up because the cable is being shortened, not because an upward force is exerted on the elevator by the cable). steel cable H elevator going up at constant speed

18. The following figure shows a boy swinging, starting at a point higher than P. Consider the following distinct forces: A. a downward force of gravity. B. a force exerted by the rope pointing from P to O. C. a force in the direction of the boy s motion. D. a force pointing from O to P. Which of the above forces is (are) acting on the boy when he is at position P? 1. A only 2. A and B 3. A and C 4. A, B, and C O 5. A, C, and D. H P 19. The positions of two blocks at successive 0.20-s time intervals are represented by the numbered squares in the following figure. The blocks are moving toward the right. 1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 H Do the blocks ever have the same speed? 1. No. 2. Yes, at instant 2. 3. Yes, at instant 5. 4. Yes, at instants 2 and 5. 5. Yes, at some time during the interval 3 to 4.

20. The positions of two blocks at successive 0.20-s time intervals are represented by the numbered squares in the figure below. The blocks are moving toward the right. The accelerations of the blocks are related as follows: block A 1 2 3 4 5 6 7 block B 1 2 3 4 5 H 1. The acceleration of A is greater than the acceleration of B. 2. The acceleration of A equals the acceleration of B. Both accelerations are greater than zero. 3. The acceleration of B is greater than the acceleration of A. 4. The acceleration of A equals the acceleration of B. Both accelerations are zero. 5. Not enough information is given to answer the question.

Use the statement and figure below to answer the next four questions (21 through 24). A spaceship drifts sideways in outer space from point P to point Q as shown below. The spaceship is subject to no outside forces. Starting at position Q, the spaceship s engine is turned on and produces a constant thrust (force on the spaceship) at right angles to the line PQ.The constant thrust is maintained until the spaceship reaches a point R in space. P H Q 21. Which of the paths 1 5 below best represents the path of the spaceship between points Q and R? R R R R R 1 2 3 4 5 Q Q Q Q Q 22. As the spaceship moves from point Q to point R its speed is 1. constant. 2. continuously increasing. 3. continuously decreasing. 4. increasing for a while and constant thereafter. 5. constant for a while and decreasing thereafter.

23. At point R, the spaceship s engine is turned off and the thrust immediately drops to zero. Which of the paths 1 5 will the spaceship follow beyond point R? 2 3 4 5 R 1 R R R R 24. Beyond position R the speed of the spaceship is 1. constant. 2. continuously increasing. 3. continuously decreasing. 4. increasing for a while and constant thereafter. 5. constant for a while and decreasing thereafter. 25. A woman exerts a constant horizontal force on a large box. As a result, the box moves across a horizontal floor at a constant speed v o. The constant horizontal force applied by the woman 1. has the same magnitude as the weight of the box. 2. is greater than the weight of the box. 3. has the same magnitude as the total force that resists the motion of the box. 4. is greater than the total force that resists the motion of the box. 5. is greater than either the weight of the box or the total force that resists its motion. 26. If the woman in the previous question doubles the constant horizontal force that she exerts on the box to push it on the same horizontal floor, the box then moves 1. with a constant speed that is double the speed v o in the previous question. 2. with a constant speed that is greater than the speed v o in the previous question, but not necessarily twice as great. 3. for a while with a speed that is constant and greater than the speed v o in the previous question, then with a speed that increases thereafter. 4. for a while with an increasing speed, then with a constant speed thereafter. 5. with a continuously increasing speed.

27. If the woman in question 25 suddenly stops applying a horizontal force to the block, then the block 1. immediately comes to a stop. 2. continues moving at a constant speed for a while and then slows to a stop. 3. immediately starts slowing to a stop. 4. continues at a constant speed. 5. increases its speed for a while and then starts slowing to a stop. 28. In the following figure, student A has a mass of 75 kg and student B has a mass of 57 kg. They sit in identical office chairs facing each other. Student A places his bare feet on the knees of student B, as shown. Student A then suddenly pushes outward with his feet, causing both chairs to move. A B During the push and while the students are still touching one another, 1. neither student exerts a force on the other. 2. student A exerts a force on student B, but B does not exert any force on A. 3. each student exerts a force on the other, but B exerts the larger force. 4. each student exerts a force on the other, but A exerts the larger force. 5. each student exerts the same amount of force on the other.

29. An empty office chair is at rest on a floor. Consider the following forces: A. a downward force of gravity. B. an upward force exerted by the floor. C. a net downward force exerted by the air. Which of the forces is (are) acting on the office chair? 1. A only 2. A and B 3. B and C 4. A, B, and C 5. None of the forces. (Since the chair is at rest, there are no forces acting upon it.) 30. Despite a very strong wind, a tennis player manages to hit a tennis ball with her racquet so that the ball passes over the net and lands in her opponent s court. Consider the following forces: A. a downward force of gravity. B. a force by the hit. C. a force exerted by the air. Which of the above forces is (are) acting on the tennis ball after it has left contact with the racquet and before it touches the ground? 1. A only 2. A and B 3. A and C 4. B and C 5. A, B, and C

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