1d motion and graphing

Similar documents
8. As a cart travels around a horizontal circular track, the cart must undergo a change in (1) velocity (3) speed (2) inertia (4) weight

TEACHER ANSWER KEY November 12, Phys - Vectors

Physics Notes Class 11 CHAPTER 3 MOTION IN A STRAIGHT LINE

Chapter 07 Test A. Name: Class: Date: Multiple Choice Identify the choice that best completes the statement or answers the question.

Work, Energy and Power Practice Test 1

In order to describe motion you need to describe the following properties.

Scalar versus Vector Quantities. Speed. Speed: Example Two. Scalar Quantities. Average Speed = distance (in meters) time (in seconds) v =

9. The kinetic energy of the moving object is (1) 5 J (3) 15 J (2) 10 J (4) 50 J

C B A T 3 T 2 T What is the magnitude of the force T 1? A) 37.5 N B) 75.0 N C) 113 N D) 157 N E) 192 N

Physics: Principles and Applications, 6e Giancoli Chapter 2 Describing Motion: Kinematics in One Dimension

SPEED, VELOCITY, AND ACCELERATION

Physics Kinematics Model

MOTION DIAGRAMS. Revised 9/ LC, tlo

Speed A B C. Time. Chapter 3: Falling Objects and Projectile Motion

5. Unable to determine m correct. 7. None of these m m m m/s. 2. None of these. 3. Unable to determine. 4.

Speed, velocity and acceleration

Ground Rules. PC1221 Fundamentals of Physics I. Kinematics. Position. Lectures 3 and 4 Motion in One Dimension. Dr Tay Seng Chuan

Experiment 2 Free Fall and Projectile Motion

Review Chapters 2, 3, 4, 5

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING PHYSICS. Thursday, June 13, :15 to 4:15 p.m.

Worksheet to Review Vector and Scalar Properties

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING PHYSICS. Friday, June 20, :15 to 4:15 p.m.

Exam 1 Review Questions PHY Exam 1

Learning Outcomes. Distinguish between Distance and Displacement when comparing positions. Distinguish between Scalar and Vector Quantities

Web review - Ch 3 motion in two dimensions practice test

AP Physics C Fall Final Web Review

Tennessee State University

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING PHYSICS. Wednesday, June 17, :15 to 4:15 p.m.

Problem Set 1 Solutions

Physics 125 Practice Exam #3 Chapters 6-7 Professor Siegel

AP Physics B Practice Workbook Book 1 Mechanics, Fluid Mechanics and Thermodynamics

Chapter 7: Momentum and Impulse

PHY121 #8 Midterm I

Problem s s o v o t 1 2 a t2. Ball B: s o 0, v o 19 m s, a 9.81 m s 2. Apply eqn. 12-5: When the balls pass each other: s A s B. t 2.

Exam Three Momentum Concept Questions

All About Motion - Displacement, Velocity and Acceleration

Chapter 3 Practice Test

PHYSICAL QUANTITIES AND UNITS

Physics 2A, Sec B00: Mechanics -- Winter 2011 Instructor: B. Grinstein Final Exam

Motion. Complete Table 1. Record all data to three decimal places (e.g., or or 0.000). Do not include units in your answer.

PHYS 117- Exam I. Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Chapter 6 Work and Energy

5. Forces and Motion-I. Force is an interaction that causes the acceleration of a body. A vector quantity.

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING PHYSICS. Tuesday, June 22, :15 a.m. to 12:15 p.m.

Two-Body System: Two Hanging Masses

Version A Page The diagram shows two bowling balls, A and B, each having a mass of 7.00 kilograms, placed 2.00 meters apart.

Motion Graphs. It is said that a picture is worth a thousand words. The same can be said for a graph.

Motion Graphs. Plotting distance against time can tell you a lot about motion. Let's look at the axes:

Name DATE Per TEST REVIEW. 2. A picture that shows how two variables are related is called a.

2-1 Position, Displacement, and Distance

Chapter 19 Magnetic Forces and Fields

3600 s 1 h. 24 h 1 day. 1 day

Free Fall: Observing and Analyzing the Free Fall Motion of a Bouncing Ping-Pong Ball and Calculating the Free Fall Acceleration (Teacher s Guide)

Review Assessment: Lec 02 Quiz

AP Physics Circular Motion Practice Test B,B,B,A,D,D,C,B,D,B,E,E,E, m/s, 0.4 N, 1.5 m, 6.3m/s, m/s, 22.9 m/s

At the skate park on the ramp

2After completing this chapter you should be able to

AP Physics 1 Midterm Exam Review

Lecture 07: Work and Kinetic Energy. Physics 2210 Fall Semester 2014

1 of 7 9/5/2009 6:12 PM

AP Physics C. Oscillations/SHM Review Packet

Weight The weight of an object is defined as the gravitational force acting on the object. Unit: Newton (N)

Physics 2048 Test 1 Solution (solutions to problems 2-5 are from student papers) Problem 1 (Short Answer: 20 points)

1. Large ships are often helped into port by using two tug boats one either side of the ship. April 5, 1989 (Anchorage Daily News / Erik Hill)

Graphing Motion. Every Picture Tells A Story

Exam 2 is at 7 pm tomorrow Conflict is at 5:15 pm in 151 Loomis

Speed (a scalar quantity) is the distance travelled every second.

Physical Science Chapter 2. Forces

circular motion & gravitation physics 111N

Supplemental Questions

Kinetic Energy (A) stays the same stays the same (B) increases increases (C) stays the same increases (D) increases stays the same.

Physics Midterm Review Packet January 2010

2008 FXA DERIVING THE EQUATIONS OF MOTION 1. Candidates should be able to :

5.1 The First Law: The Law of Inertia

Sample Questions for the AP Physics 1 Exam

Educational Innovations

Chapter 3 Falling Objects and Projectile Motion

226 Chapter 15: OSCILLATIONS

1.3.1 Position, Distance and Displacement

1 of 10 7/29/2014 7:28 AM 2 of 10 7/29/2014 7:28 AM

PHY231 Section 2, Form A March 22, Which one of the following statements concerning kinetic energy is true?

Freely Falling Objects

PHY231 Section 1, Form B March 22, 2012

Curso Física Básica Experimental I Cuestiones Tema IV. Trabajo y energía.

SQA CfE Higher Physics Unit 1: Our Dynamic Universe

Physics of Sports CTY Course Syllabus

Practice final for Basic Physics spring 2005 answers on the last page Name: Date:

Vectors. Objectives. Assessment. Assessment. Equations. Physics terms 5/15/14. State the definition and give examples of vector and scalar variables.

Steps to Solving Newtons Laws Problems.

Physics Section 3.2 Free Fall

DISPLACEMENT & VELOCITY

Physics 211 Lecture 4

Newton s Laws. Physics 1425 lecture 6. Michael Fowler, UVa.

The University of the State of New York REGENTS HIGH SCHOOL EXAMINATION PHYSICAL SETTING PHYSICS

Chapter 5: Circular Motion, the Planets, and Gravity

Physics 41 HW Set 1 Chapter 15

Practice TEST 2. Explain your reasoning

Work, Power, Energy Multiple Choice. PSI Physics. Multiple Choice Questions

Conceptual Questions: Forces and Newton s Laws

SQA Higher Physics Unit 1 Mechanics and Properties of Matter

Transcription:

Name: ate: 1. blinking light of constant period is situated on a lab cart. Which diagram best represents a photograph of the light as the cart moves with constant velocity?.... 5. What is the average velocity of a car that travels 30. kilometers due west in 0.50 hour?. 15 km/hr. 60. km/hr. 15 km/hr west. 60. km/hr west 6. ase your answer(s) to the following question(s) on the graph, which represents the relationship between the displacement of an object and its time of travel along a straight line. 2. Which is a scalar quantity. displacement. distance. force. acceleration 3. car travels 20 meters east in 1.0 second. The displacement of the car at the end of this 1.0-second interval is. 20 m. 20 m/s. 20 m east. 20 m/s east 4. car is driven from uffalo to lbany and on to New York ity, as shown in the diagram. ompared to the magnitude of the car s total displacement, the distance driven is What is the magnitude of the object s total displacement after 8.0 seconds?. 0 m. 2 m. 8 m. 16 m. shorter. longer. the same page 1

7. 10. The accompanying graph represents the motion of an object. ccording to the graph, as time increases, the velocity of the object The accompanying map shows the route traveled by a school bus. What is the magnitude of the total displacement of the school bus from the start to the end of its trip?. 400 m. 500 m. 800 m. 1,800 m. decreases. increases. remains the same 11. The accompanying graph shows the velocity of a race car moving along a straight line as a function of time. 8. Which pair of graphs represent the same motion?.... What is the magnitude of the displacement of the car from t = 2.0 seconds to t = 4.0 seconds?. 20. m. 40. m. 60. m. 80. m 12. Velocity is to speed as displacement is to 9. s a cart travels around a horizontal circular track, the cart must undergo a change in. velocity. inertia. acceleration. time. momentum. distance. speed. weight page 2

13. Which graph best represents the relationship between the velocity of an object thrown straight upward from Earth s surface and the time that elapses while it is in the air? [Neglect friction.] 15. The graph below represents the velocity of an object traveling in a straight line as a function of time... etermine the magnitude of the total displacement of the object at the end of the first 6.0 seconds.. 16. steel ball is dropped from a height of 100 meters. Which velocity-time graph best describes the motion of the ball?..... 14. The speedometer in a car does not measure the car s velocity because velocity is a. vector quantity and has a direction associated with it. vector quantity and does not have a direction associated with it. scalar quantity and has a direction associated with it. scalar quantity and does not have a direction associated with it 17. The uniform motion of a cart is shown in the distance versus time graph. What is the average speed of the cart?. 0.5 m/sec. 2 m/sec. 5 m/sec. 50 m/sec page 3

18. The graph shown represents the relationship between velocity and time for a 2.0-kilogram cart that is initially at rest and starts moving northward. 21. n object accelerates uniformly from rest to a speed of 50 meters per second in 5.0 seconds. The average speed of the object during the 5.0-second interval is. 5.0 m/s. 10 m/s. 25 m/s. 50 m/s In which direction is the cart that is shown traveling at t = 4 seconds? 22. jogger accelerates at a constant rate as she travels 5.0 meters along a straight track from point to point, as shown in the diagram. If her speed was 2.0 meters per second at point and will be 3.0 meters per second at point, how long will it take her to go from to?. north. east. south. west 19. blinking light of constant period is situated on a lab cart. Which diagram best represents a photograph of the light as the cart moves with constant velocity?.... 20. The graph shown represents the relationship between distance and time for an object in motion. uring which interval is the speed of the object changing?.... E. 1.0 s. 2.0 s. 3.3 s. 4.2 s 23. car travels between the 100-meter and 250-meter highway markers in 10 seconds. The average speed of the car during this interval is. 10 m/s. 15 m/s. 25 m/s. 35 m/s 24. car having an initial speed of 16 meters per second is uniformly brought to rest in 4.0 seconds. How far does the car travel during this 4.0-second interval?. 32 m. 82 m. 96 m. 4.0 m 25. runner starts from rest and accelerates uniformly to a speed of 8.0 meters per second in 4.0 seconds. The magnitude of the acceleration of the runner is. 0.50 m/s 2. 2.0 m/s 2. 9.8 m/s 2. 32 m/s 2 page 4

26. The accompanying diagram represents the relationship between velocity and time of travel for four cars,,,, and, in straight-line motion. Which car has the greatest acceleration during the time interval 10. seconds to 15 seconds?.... page 5

Problem-ttic format version 4.4.217 c 2011 2014 Educide Software Licensed for use by Mark Williams Terms of Use at www.problem-attic.com 09/29/2014 1. 21. 2. 22. 3. 23. 4. 24. 5. 25. 6. 26. 7. 8. 9. 10. 11. 12. 13. 14. 15. 50. m 16. 17. 18. 19. 20.

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information