Momentum & Energy Review Checklist

Similar documents
Momentum & Energy Review Checklist

s_3x03 Page 1 Physics Samples

RELEASED. Go to next page. 2. The graph shows the acceleration of a car over time.

2. What would happen to his acceleration if his speed were half? Energy The ability to do work

Name 09-MAR-04. Work Power and Energy

Page 1. Name: 1) If a man walks 17 meters east then 17 meters south, the magnitude of the man's displacement is A) 34 m B) 30.

1 1. A spring has a spring constant of 120 newtons/meter. How much potential energy is stored in the spring as it is stretched 0.20 meter?

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

(D) Based on Ft = m v, doubling the mass would require twice the time for same momentum change

RELEASED FORM RELEASED. North Carolina Test of Physics

Energy Whiteboard Problems

Test Booklet. Subject: SC, Grade: HS 2008 Grade High School Physics. Student name:

2 possibilities. 2.) Work is done and... 1.) Work is done and... *** The function of work is to change energy ***

(A) 0 (B) mv (C) 2mv (D) 2mv sin θ (E) 2mv cos θ

Extra credit assignment #4 It can be handed in up until one class before Test 4 (check your course outline). It will NOT be accepted after that.

Momentum, Impulse, Work, Energy, Power, and Conservation Laws

Momentum, Impulse, Work, Energy, Power, and Conservation Laws

Physics Midterm Review KEY

WEP-Work and Power. What is the amount of work done against gravity as an identical mass is moved from A to C? J J J 4.

The work-energy theorem

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

Regents Physics. Physics Midterm Review - Multiple Choice Problems

Momentum Conceptual Questions. 1. Which variable has more impact on an object s motion? Its mass or its velocity?

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

Sometimes (like on AP test) you will see the equation like this:

Physics 12 Final Exam Review Booklet # 1

Page 1. Name:

As the mass travels along the track, the maximum height it will reach above point E will be closest to A) 10. m B) 20. m C) 30. m D) 40.

PSI AP Physics I Work and Energy

WEP-Energy. 2. If the speed of a car is doubled, the kinetic energy of the car is 1. quadrupled 2. quartered 3. doubled 4. halved

Physics Test Review: Mechanics Session: Name:

Work Energy Review. 1. Base your answer to the following question on the information and diagram below and on your knowledge of physics.

The diagram below shows a block on a horizontal frictionless surface. A 100.-newton force acts on the block at an angle of 30. above the horizontal.

Welcome back to Physics 211

Name Lesson 7. Homework Work and Energy Problem Solving Outcomes

(A) 10 m (B) 20 m (C) 25 m (D) 30 m (E) 40 m

Which force causes the path of the stream of water to change due to the plastic rod? A) nuclear B) magnetic C) electrostatic D) gravitational

Energy Review Sheet. 4. A cart with 1000 J of energy crashes into a spring with a spring constant of 100 N/m. How far does the spring compress?

Impulse/Momentum And Its Conservation

23. A snowmobile pulls a trailer with a force of 450 N while moving at a constant velocity of 15 m/s. How much work is done by the snowmobile in 28 s?

Practice Test for Midterm Exam

Page 1. Name: 1) The diagram below represents two concurrent forces.

Practice Final C. 1. The diagram below shows a worker using a rope to pull a cart.

A big fish swims upon and swallows a small fish at rest. After lunch, the big fish has less a) momentum b) velocity

5. The graph represents the net force acting on an object as a function of time. During which time interval is the velocity of the object constant?

AP Physics C: Mechanics Practice (Systems of Particles and Linear Momentum)

1. In part (a) of the figure, an air track cart attached to a spring rests on the track at the position x equilibrium and the spring is relaxed.

Chapter 13. Simple Harmonic Motion

m/s m/s m/s m/s

UNIVERSITY OF SASKATCHEWAN Department of Physics and Engineering Physics

WEP-Energy. 2. If the speed of a car is doubled, the kinetic energy of the car is 1. quadrupled 2. quartered 3. doubled 4. halved

2014 Physics Exam Review

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

CPS lesson Work and Energy ANSWER KEY

1 kg. 10,000 kg. 1 Page. Momentum is a vector so it has a magnitude and a velocity. Its magnitude is the product of its mass and velocity, p = mv.

Collisions. Conservation of Momentum Elastic and inelastic collisions. Serway For practice: Chapter 9, problems 10, 11, 23, 70, 75

If there is now a constant air resistance force of 35 N, what is the new maximum height the ball attains?

Final Review. If a car has 3,000kg-m/s of momentum, and a mass of 1,000kg. How fast is it moving? A ball that has momentum must also have energy.

m/s m/s m/s m/s

Momentum and Impulse Practice Multiple Choice

Physics Final Review #3: Momentum

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

PHYSICS MIDTERM REVIEW PACKET

Physics Worksheet Work and Energy Section: Name:

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

AP Physics 1: MIDTERM REVIEW OVER UNITS 2-4: KINEMATICS, DYNAMICS, FORCE & MOTION, WORK & POWER

Multiple Choice Practice

Work. Work is the measure of energy transferred. Energy: the capacity to do work. W = F X d

Name: Class: 903 Active Physics Winter Break Regents Prep December 2014

DO NOT OPEN THE EXAMINATION PAPER UNTIL YOU ARE TOLD BY THE SUPERVISOR TO BEGIN. Physics FINAL EXAMINATION June 2011.

PSI AP Physics I Momentum

AP Physics Momentum Practice Test. Answers: A,E,E,A,E,B,D,C,B,A,B,E,D,C 16.(a)5450,5650 (b)2.25e7 (c)3 (d)1.5e7 17.(a)9 (b)2 (c)1.5 (d) (e).

Lab/Demo 5 Periodic Motion and Momentum PHYS 1800

KEY NNHS Introductory Physics: MCAS Review Packet #2

PRACTICE TEST for Midterm Exam

Exam 2--PHYS 101--Fall 2014

Period: Date: Review - UCM & Energy. Page 1. Base your answers to questions 1 and 2 on the information and diagram below.

Pre-Comp Review Questions- 8 th Grade

AP Mechanics Summer Assignment

1. A 1,160-kg car traveling initially with a speed of 25.0 m/s in an easterly direction crashes into the rear end of a

1 A freight car of mass 20,000 kg moves along a frictionless level railroad track with a constant speed of 15 m/s. What is the momentum of the car?

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

Part I Review Unit Review Name Momentum and Impulse

Section 5: Conservation of Energy and Gravitation

Momentum Practice Problems

Slide 1 / 76. Work & Energy Multiple Choice Problems

Chapter 6 Energy and Oscillations

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

Slide 1 / 40. Multiple Choice AP Physics 1 Momentum

1D Motion: Review Packet Problem 1: Consider the following eight velocity vs. time graphs. Positive velocity is forward velocity.

the spring is compressed and x is the compression

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?

Recall: Gravitational Potential Energy

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

Clicker Question: Momentum. If the earth collided with a meteor that slowed it down in its orbit, what would happen: continued from last time

Momentum, Work and Energy Review

DO NOT OPEN THE EXAMINATION PAPER UNTIL YOU ARE TOLD BY THE SUPERVISOR TO BEGIN PHYSICS FINAL EXAMINATION June General Instructions

Science 20 Physics Review

Phys101 Second Major-162 Zero Version Coordinator: Dr. Kunwar S. Saturday, March 25, 2017 Page: 1

Name ID Section. 1. One mile is equal to 1609 m; 1 hour is equal to 3600 s. The highway speed limit of 65 mph is equivalent to the speed of:

Transcription:

Momentum & Energy Review Checklist Impulse and Momentum 3.1.1 Use equations to calculate impulse; momentum; initial speed; final speed; force; or time. An object with a mass of 5 kilograms is moving at 3.0 meters per second. Determine its momentum. Conservation of Momentum 3.1.2A Determine the outcome of an elastic collision. A 3.0 kilogram object moving at 2.0 meters per second collides with a 1.0 kilogram object and comes to a stop. Determine the speed of the 1.0 kilogram object after the collision. An object with a mass of 3 kilograms begins with a speed of 2.0 meters per second and increases its speed to 5.0 meters per second in 10.0 seconds. a) Determine the starting and final momentums. b) Determine the impulse experienced by the object. A 2.0 kilogram object moving east at 3.0 meters per second collides (with no sticking) with a 4.0 kilogram object moving west at 1.0 meters per second. If the 2.0 kilogram object moves west at 0.5 meter per second after the collsion, determine the direction and speed of the 4.0 kilogram object. c) Determine the net force acting on the object as its speeds up. A 2.0 kilogram object at rest is subjected to a force of 20 newtons for 4.0 seconds. What final speed will the object reach? 3.1.2B Determine the outcome of an inelastic collision. A 2.0 kilogram object moving east at 4.0 meters per second collides with a 5.0 kilogram object moving west at 6.0 meters per second. The two objects stick together after the collision. Determine the speed of the two objects after the collision. A 4.0 kilogram object moving east with a speed of 8.0 meters per second is subjected to a force to the west for 1.5 seconds, slowing it down to a speed of 2.0 meters per second. Determine the amount of force applied. A 50 kilogram object moving at 6.0 meters per second slows down and comes to a stop while being subjected to a force of 10 newtons. How long does it take for the object to come to a stop? A 5.0 kilogram object moving east at 4.0 meters per second collides with a 3.0 kilogram object moving east at 2.0 meters per second. If the two objects stick together, what is their final speed?

3.1.2C Determine an unknown in a system in which the starting or ending momentum is zero. What amount of kinetic energy does a 4.0 kilogram object have when moving at 3.0 meters per A 1000 kilogram car moving east collides with a 3000 kilogram truck moving west and both come to aa stop. Before the collision the truck is moving at 2.0 meters per second. What speed was the car moving with before the collision? A 30 newton force is applied to an object at an angle of 30 above horizontal. If the object is moved a distance of 10 meters horizontally along a frictionless surface using this force, what amount of kinetic energy is gained by the object? A 4.0 kilogram cart and a 3.0 kilogram cart are pushed up against opposite sides of a spring and held motionless. When the carts are released, the 3.0 kilogram cart moves west at 10 meters per second. What is the direction and speed of the 4.0 kilogram cart after the release? A 5.0 kilogram object is moved 4.0 meters across a frictionless surface with a force of 20 newtons. a. What amount of kinetic energy does the object gain? A pair of lab carts, A and B collide and come to a stop. Before the collision, cart A, which has a mass of 2.5 kilograms was moving at 4.0 meters per second. What is the mass of cart B if its speed before the collision was 2.0 meters per b. What final speed will the object have? Work/Energy Principle 3.2.1A Use equations to determine the work, force, distance, or kinetic energy gained in a frictionless, horizontal motion system. Sketch a graph of kinetic energy vs. speed. KE How much work is done on an object if 35 newtons of force are applied to it as it is moved 10 meters? v

3.2.1B Use equations to determine work; force; distance, or gravitational potential energy gained in a frictionless, vertical system. What is the spring constant of a spring that requires 500 joules of work to be compressed a distance of 0.01 meter? A force of 30 newtons is used to lift an object from the ground to a shelf that is 2.0 meters high. What amount of gravitational potential energy did the object gain? A spring with a spring constant of 200 newtons per meteris stretched using 1000 joules of work. What distance will the spring stretch? 75 joules of work are done in lifting a 2.5 kilogram object. What change in height will the object experience? Sketch a graph of spring potential energy vs. stretch distance. Sketch a graph of gravitational potential energy vs. height. PE S PE x h 3.2.1C Use equations to determine the work, force, distance, or spring potential energy gained in a frictionless system. How much energy is needed to compress a spring with a spring constant of 100 newtons per meter a distance of 0.05 meter? Conservation of Energy 3.2.2A Use the principle of Conservation of Energy to determine changes in kinetic energy; internal energy; and/or speedin horizontal motion systems. How much work is needed to accelerate a 5.0 kilogram object moving at 3.0 meters per second on a frictionless surface to a speed of 10.0 meters per

How much work is needed to accelerate a 5.0 kilogram object moving at 3.0 meters per second on a frictionless surface to a speed of 10.0 meters per A 4.0 kilogram object moving at 15 meters per second is slowed down to a speed of 6.0 meters per second by a friction force of 20 newtons. a. How much internal energy is produced during this change? 3.2.2C Use the principle of Conservation of Energy to determine changes in potential energy; kinetic energy; internal energy; speed; and/or height. A 2.0 kilogram object at rest at the top of a frictionless 4.0 meter high hill is allowed to slide to the bottom. What speed will the object reach at the bottom of the hill? b. What distance will the object travel during this motion? A 3.0 kilogram object is thrown upward with an initial speed of 10 meters per second. What maximum height will the object reach? 3.2.2B Use the principle of Conservation of Energy to determine changes in potential energy; internal energy; and or height in vertical motion systems. 500 joules of energy are used in lifting a 10 kilogram object a distance of 3.0 meters. What amount of work is done by friction in this system? A 5.0 kilogram object at the top of a 2.0 meter high hill gains 15 joules of kinetic energy as it slides to the bottom of the hill. How much work was done by friction as the object slid down the hill? A 6.0 newton object is lifted a distance of 10 meters. If 100 joules of work are done by friction during this lift, what is the total amount of energy expended as the object is lifted? A spring with a spring constant of 1000 newtons per meter is used to launch a 3.0 kilogram object vertically. The spring is compressed 0.10 meter before the launch. a. What amount of energy will be stored in the spring before launch? b. How high will the object go?

How much kinetic energy must a 3.0 kilogram object have to slide up a frictionless, 5.0 meter high hill? Mechanical Power 3.2.3 Use equation to determine power; work; energy; time; force; and/or distance. What amount of power is generated in a system that uses 35 joules of energy in 10 seconds? A ball slides down from rest starting at point A on the frictionless track shown below. A C D What is the power output of a motor that applies 75 newtons of force in lifting an object 5.0 meters in 2.5 seconds? B a. At which point is gravitational potential energy a maximum? b. At which point is kinetic energy a maximum? c. Compare the ball s speed at point C to its speed at point D. What is the power generated by a person who pulls a rope with a force of 100 newtons, lifting an object with an average speed of 3.5 meters per A 500 newton per meter spring is compressed a distance of 0.06 meter then used to shoot a 0.02 kilogram object along a horizontal surface. The object is launched with a speed of 6.0 meters per second. a. Determine the amount of energy stored in the spring. A 3000 watt motor is used to drive a boat. How long will it take the motor to use 6.0 x 10 7 joules of energy? b. Determine the kinetic energy of the object at launch. c. What amount of internal energy is generated in this system?

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