Momentum ~ Lab Name:
|
|
- Jonathan Fitzgerald
- 5 years ago
- Views:
Transcription
1 Momentum ~ Lab Name: Instructions: Using a pencil, answer the following questions. The lab is marked, based on effort, completeness, neatness, and accuracy. Do your best! Part 1: Explosion In this section, you will be referring to the Lab Resources > Video & PDF: Cart Explosion 1. What does the slope of a d vs t graph show? 2. Where, on a d vs t graph, should the slope be measured if you were looking to measure the velocity of an object immediately after an explosion? Describe and/or sketch. 3. Note that sometimes graphs don't distinguish direction in the way they are plotted. In these cases, you decide which direction is the positive direction and include it with the velocity. If two objects moved in opposite directions, what could you say about their respective velocities and momentums? 4. Show your calculation for the velocity of Cart #1 after EXPLOSION #1 (remember sign [per 5. Show your calculation for the velocity of Cart #2 after EXPLOSION #1 (remember sign [per 6. Show your calculation for the velocity of Cart #1 after EXPLOSION #2 (remember sign [per 7. Show your calculation for the velocity of Cart #2 after EXPLOSION #2 (remember sign [per Page 1 of 5
2 8. Using the velocity calculations from the previous page, complete the table below. Remember your signs and units. Explosion #1 Cart #1 Cart #2 Total Momentum mass 500 g 500 g xxx V i zero zero xxx V f xxx p i zero zero zero p f Explosion #2 Cart #1 Cart #2 Total Momentum mass 500 g 1000 g xxx V i zero zero xxx V f xxx p i zero zero zero p f 9. Given the initial Total Momentum, what should be the total Final Momentum close to? Why? Page 2 of 5
3 10. Based on your observations and analysis of the lab, what was the experimental difference between the total initial and final momentum for each explosion. Because both carts are not moving before the plunger is released, we need to compare the momenta of the two carts after the explosion. To avoid having to divide by zero, use the following formula (the bars represent absolute value): Momentum of Cart1 Momentum of Cart 2 % difference = x 100 Momentum of Cart1 Explosion #1 Explosion #2 11. Consider the % differences you calculated above. Given that every lab will result in a bit of lab error, but should be "within reason" if you designed a good lab, does your % differences seem reasonable? What might be a few sources of error? 12. Before something explodes, it is often not moving. After the explosion, though, its pieces are moving in all directions with varying speeds. How can it be said that the net momentum after the explosion is zero? Draw a vector diagram to explain. Page 3 of 5
4 Part 2: Collision In this section, you will be referring to the Lab Resources > Media: Collision Lab. 1. In the green box on the right side of the screen, select the following settings: 1 dimension, velocity vectors ON, momentum vectors ON, reflecting borders ON, momenta diagram ON, elasticity 0%. Look at the red and green balls on the screen and the vectors that represent their motion. a. Which ball has the greater velocity? b. Which has the greater momentum? 2. Explain why the green ball has more momentum but less velocity than the red ball (HINT: what is the definition of momentum?). 3. Push play and let the balls collide. After they collide and you see the vectors change, click pause. Click rewind and watch the momenta box during the collision. Watch it more than once if needed by using play, rewind, and pause. Zoom in on the vectors in the momenta box with the control on the right of the box to make it easier to see if necessary. 4. Change the mass of the red ball to match that of the green ball. a. Which ball has greater momentum now? b. How has the total momentum changed? c. Predict what will happen to the motion of the balls after they collide. Page 4 of 5
5 5. Watch the simulation, and then pause it once the vectors have changed. 6. Now change the elasticity to 100%. Predict the motion of the balls after the collision. 7. Watch the simulation, and then pause it once the vectors have changed. Page 5 of 5
EXPERIMENT 6: COLLISIONS
TA name Lab section Date TA Initials (on completion) Name UW Student ID # Lab Partner(s) EXPERIMENT 6: COLLISIONS CONSERVATION OF ENERGY & MOMENTUM IN COLLISIONS 117 Textbook Reference: Walker, Chapter
More informationPhysics 1020 Experiment 5. Momentum
1 2 What is? is a vector quantity which is a product of a mass of the object and its velocity. Therefore p = mv If your system consists of more then one object (for example if it consists of two carts)
More informationConservation of Momentum Using PASCO TM Carts and Track to Study Collisions in One Dimension
14 Conservation of Conservation of Using PASCO TM Carts and Track to Study s in One Dimension When two objects collide momentum is transferred between them. p is defined as the product of mass and velocity
More informationPhysic 602 Conservation of Momentum. (Read objectives on screen.)
Physic 602 Conservation of Momentum (Read objectives on screen.) Good. You re back. We re just about ready to start this lab on conservation of momentum during collisions and explosions. In the lab, we
More informationPROJECTILE MOTION: CONSERVATION OF MOMENTUM 19 FEBRUARY 2013
PROJECTILE MOTION: CONSERVATION OF MOMENTUM 19 FEBRUARY 2013 Lesson Description In this lesson we: Learn that an object s momentum is the amount of motion it has due to its mass and velocity. Show that
More informationConservation of Momentum
Conservation of Momentum PURPOSE To investigate the behavior of objects colliding in elastic and inelastic collisions. To investigate momentum and energy conservation for a pair of colliding carts. To
More informationRepresentations of Motion in One Dimension: Speeding up and slowing down with constant acceleration
Representations of Motion in One Dimension: Speeding up and slowing down with constant acceleration Name: Group Members: Date: TA s Name: Apparatus: Aluminum track and supports, PASCO Smart Cart, two cart
More informationLab/Demo 5 Periodic Motion and Momentum PHYS 1800
Lab/Demo 5 Periodic Motion and Momentum PHYS 1800 Objectives: Learn to recognize and describe periodic motion. Develop some intuition for the principle of conservation of energy in periodic systems. Use
More informationStudent Exploration: Air Track
Name: Date: Student Exploration: Air Track Vocabulary: air track, approach velocity, conservation of energy, conservation of momentum, elasticity, kinetic energy, momentum, separation velocity, velocity
More informationLABORATORY VI MOMENTUM
LABORATORY VI MOMENTUM In this lab you will use conservation of momentum to predict the motion of objects motions resulting from collisions. It is often difficult or impossible to obtain enough information
More informationPhysics 10 Lecture 6A. "And in knowing that you know nothing, that makes you the smartest of all. --Socrates
Physics 10 Lecture 6A "And in knowing that you know nothing, that makes you the smartest of all. --Socrates Momentum Which is harder to stop a small ball moving at 1 m/s or a car moving at 1 m/s? Obviously
More informationGeneral Physics I Lab (PHYS-2011) Experiment MECH-3: Conservation of Momentum ]
MECH-3: Conservation of Momentum Page 1 of 6 1 EQUIPMENT General Physics I Lab (PHYS-2011) Experiment MECH-3: Conservation of Momentum ] 1 Smart Cart - Red ME-1240 1 Smart Cart - Blue ME-1241 1 250 g Mass
More informationLab 8 Impulse and Momentum
b Lab 8 Impulse and Momentum What You Need To Know: The Physics There are many concepts in physics that are defined purely by an equation and not by a description. In some cases, this is a source of much
More informationMomentum in One Dimension
Momentum in One Dimension Theory The linear momentum p of an object is defined as p = m v (1) where m is the mass of the object and v its velocity. Note that since velocity is a vector, momentum is as
More informationConservation of momentum
Conservation of momentum Objectives Define the law of conservation of momentum. Demonstrate the law of conservation of momentum using an interactive simulation. Apply the law of conservation of momentum
More informationConservation of Linear Momentum
Conservation of Linear Momentum Objective In this series of experiments, the conservation of linear momentum and kinetic energy will be tested for different types of collisions. Equipment List Air track,
More informationLab 7. Newton s Third Law and Momentum
Lab 7. Newton s Third Law and Momentum Goals To explore the behavior of forces acting between two objects when they touch one another or interact with one another by some other means, such as a light string.
More informationCh 7 Impulse-Momentum Theorem, Conservation of Momentum, and Collisions
Ch 7 Impulse-Momentum Theorem, Conservation of Momentum, and Collisions Momentum and its relation to force Momentum describes an object s motion. Linear momentum is the product of an object s mass and
More informationLab 12 - Conservation of Momentum And Energy in Collisions
Lab 12 - Conservation of Momentum And Energy in Collisions Name Partner s Name I. Introduction/Theory Momentum is conserved during collisions. The momentum of an object is the product of its mass and its
More informationEnergy& Momentum ~Learning Guide Name:
Energy& Momentum ~Learning Guide Name: Instructions: Using a pencil, answer the following questions. The Pre-Reading is marked, based on effort, completeness, and neatness (not accuracy). The rest of the
More informationConservation of Momentum
Conservation of Momentum Law of Conservation of Momentum The sum of the momenta before a collision equal the sum of the momenta after the collision in an isolated system (=no external forces acting).
More informationCenter of Mass. Evaluation copy
Center of Mass Experiment 19 INTRODUCTION In the most of the previous experiments you have examined the motion of a single object as it underwent a variety of motions. You learned that an object subject
More informationUnit 5: Momentum. Vocabulary: momentum, impulse, center of mass, conservation of momentum, elastic collision, inelastic collision.
Text: Chapter 9 Unit 5: Momentum NAME: Problems (p. 229-240) #1: 18, 20, 27, 31, 37 (momentum & impulse) #2: 40, 42, 45, 46, 100 (conservation of momentum) #3: 49, 103, 123, 129 (collisions) Vocabulary:
More informationPHY 221 Lab 8. Momentum and Collisions: Conservation of momentum and kinetic energy
Name: Partner: Partner: PHY 221 Lab 8 Momentum and Collisions: Conservation of momentum and kinetic energy Goals: To be able to explore how different collisions between carts can be studied to illustrate
More informationConservation of Momentum and Energy
ASU University Physics Labs - Mechanics Lab 5 p. 1 Conservation of Momentum and Energy As you work through the steps in the lab procedure, record your experimental values and the results on this worksheet.
More informationHW#9: Energy Conversion and Conservation of Energy
HW#9: Energy Conversion and Conservation of Energy Name: Group Galileo s Pendulum Experiment 1: Play the video Galileo Pendulum 1. Watch the entire video. You could check out the Pendulum lab simulation
More informationWorksheet for Exploration 6.1: An Operational Definition of Work
Worksheet for Exploration 6.1: An Operational Definition of Work This Exploration allows you to discover how work causes changes in kinetic energy. Restart. Drag "handy" to the front and/or the back of
More informationChapter 9: Momentum and Conservation. Newton s Laws applied
Chapter 9: Momentum and Conservation Newton s Laws applied Dynamics of Physics Dynamics are the CAUSES of CHANGE in Physics. Recall that position is changed by velocity. Velocity is changed by acceleration.
More informationMomentum & Collisions
& Collisions Name: Date: Period: AP PHYSICS Lab (Virtual) Weight (Formative) BACKGROUND. Before beginning the lab, let s learn a little about momentum and collisions. Follow the directions given below.
More informationImpulse and Momentum continued
Chapter 7 Impulse and Momentum continued 7.2 The Principle of Conservation of Linear Momentum External forces Forces exerted on the objects by agents external to the system. Net force changes the velocity
More informationMoLE Gas Laws Activities *
MoLE Gas Laws Activities * To begin this assignment you must be able to log on to the Internet using Internet Explorer (Microsoft) 4.5 or higher. If you do not have the current version of the browser,
More informationLab 8 Impulse and Momentum
b Lab 8 Impulse and Momentum Physics 211 Lab What You Need To Know: The Physics Today we will deal with two physical concepts: impulse and momentum. For both, it turns out to be harder to say what they
More informationImpulse simply refers to a change in momentum, and is usually caused by a change in velocity, as described by p = m v.
1 Impulse and Momentum Recall from Newton s 1 st Law: inertia is the tendency of an object to keep on doing what its already doing, that is: either remaining stationary, or: travelling at a constant velocity.
More informationMomentum & Energy Review Checklist
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
More informationMomentum & Energy Review Checklist
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
More informationLab 9 CONSERVATION OF LINEAR MOMENTUM
Lab 9 CONSERVATION OF LINEAR MOMENTUM In this experiment, you will try to verify the Law of Conservation of Linear Momentum using a collision between two cars on the air track. Here are the important concepts
More informationDylan Humenik Ben Daily Srikrishnan Varadarajan Double Cart Collisions
Double Cart Collisions Objective: -Apply knowledge of collisions in analysis of collision -Find momentum and kinetic energy of two different collisions (elastic and inelastic) Data: Mass (kg) Cart 1 (moving)
More informationProfessor Jasper Halekas Van Allen Lecture Room 1 MWF 8:30-9:20 Lecture
Professor Jasper Halekas Van Allen Lecture Room 1 MWF 8:30-9:20 Lecture Mean = 9.63/15 = 64% (> 60% target!) Std. Dev. = 2.22 Min =4 Max = 15 Nice job!!!! Solutions posted tonight Homework due Thursday
More information1 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?
Slide 1 / 26 1 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? 30,000 kg m/s 3,000 kg m/s 300,000 kg m/s
More informationCollisions and Momentum in 1D Teacher s Guide
Collisions and Momentum in 1D Teacher s Guide 1.0 Summary Collisions and Momentum in 1D is the sixth activity in the Dynamica sequence. This activity should be done after Force in 2D and it should take
More informationInelastic Collisions
Experiment 5 Inelastic Collisions 5.1 Objectives Measure the momentum and kinetic energy of two objects before and after a perfectly inelastic one-dimensional collision. Observe that the concept of conservation
More informationExperiment: Momentum & Impulse in Collisions (Video)
Phy201: General Physics I Laboratory 1 Experiment: Momentum & Impulse in Collisions (Video) Objectives: To utilize momentum carts to investigate the nature of different types of collisions To perform video
More informationSPH4U UNIVERSITY PHYSICS
SPH4U UNIVERSITY PHYSICS ENERGY & MOMENTUM L (P.240-248) As suspected, when hard objects such as billiard balls collide, bounce off each other, and return to their original shape, they have undergone elastic
More informationThe SI units of mass are kilograms (kg) and of velocity are meters / second (m/s). Therefore, the units of momentum are kg m/s.
Momentum Introduction As was pointed out in the previous chapter, some of the most powerful tools in physics are based on conservation principles. The idea behind a conservation principle is that there
More informationGeneral Physics I Momentum
General Physics I Momentum Linear Momentum: Definition: For a single particle, the momentum p is defined as: p = mv (p is a vector since v is a vector). So p x = mv x etc. Units of linear momentum are
More informationLABORATORY V CONSERVATION OF MOMENTUM
LABORATORY V CONSERVATION OF MOMENTUM In this lab you will use conservation of momentum to predict the motion of objects resulting from collisions. It is often difficult or impossible to obtain enough
More informationPhysics 1A Fall 2013: Quiz 4 Version A 1. Department of Physics Physics 1A Fall Quarter 2013 Dr. Paddock. Version A
Physics 1A Fall 2013: Quiz 4 Version A 1 Department of Physics Physics 1A Fall Quarter 2013 Dr. Paddock Version A DO NOT TURN OVER THIS PAGE UNTIL INSTRUCTED TO DO SO PUT AWAY ALL BOOKS, NOTES, PHONES,
More informationConstant vs Conserved
1.1 System, Environment, Process Constant vs Conserved From time to time, we will find it useful to focus our attention on a certain part of the universe and consider it separately from everything else.
More informationMomentum in Collisions
Activity 14 PS-2826 Momentum in Collisions Mechanics: momentum, impulse, conservation of momentum GLX setup file: momentum Qty Equipment and Materials Part Number 1 PASPORT Xplorer GLX PS-2002 2 PASPORT
More informationPHYSICS LAB: CONSTANT MOTION
PHYSICS LAB: CONSTANT MOTION Introduction Experimentation is fundamental to physics (and all science, for that matter) because it allows us to prove or disprove our hypotheses about how the physical world
More informationPRELAB: COLLISIONS Collisions, p. 1/15
PRELAB: COLLISIONS Collisions, p. 1/15 1. What is your Prediction 1-7 when the truck is accelerating? Explain the reasoning behind your prediction. 2. If you set up the force probes according to the instructions
More informationOne Dimensional Collisions 1 Fall 2018
One Dimensional Collisions 1 Fall 2018 Name: Partners: Introduction The purpose of this experiment is to perform experiments to learn about momentum, impulse and collisions in one dimension. Write all
More informationInelastic Collisions
Experiment 4 Inelastic Collisions 4.1 Objectives Measure the momentum and kinetic energy of two objects before and after a perfectly inelastic one-dimensional collision. Observe that the concept of conservation
More informationCOLLISIONS AND MOMENTUM - NEWTON'S THIRD LAW
July 18 Collisions and Momentum Newton s Third Law 1 Name Date Partners COLLISIONS AND MOMENTUM - NEWTON'S THIRD LAW In any system of bodies which act on each other, action and reaction, estimated by momentum
More informationVideo Analysis of a Ball on a Rotating Merry-go-round
Video Analysis of a Ball on a Rotating Merry-go-round Apparatus Tracker software (free; download from http://www.cabrillo.edu/ dbrown/tracker/) video: coriolis-merry-go-round-ball.mov from http://physics.highpoint.edu/
More informationPHYSICS. Chapter 11 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT Pearson Education, Inc.
PHYSICS FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E Chapter 11 Lecture RANDALL D. KNIGHT Chapter 11 Impulse and Momentum IN THIS CHAPTER, you will learn to use the concepts of impulse and momentum.
More informationAdvanced Collisions Teacher s Guide
Advanced Collisions Teacher s Guide 1.0 Summary Advanced Collisions is the seventh activity in the Dynamica sequence. This activity should be done after Collisions and Momentum in 1D and should take students
More informationMomentum Energy Angular Momentum
Notes 8 Impulse and Momentum Page 1 Impulse and Momentum Newton's "Laws" require us to follow the details of a situation in order to calculate properties of the system. Is there a simpler way? CONSERVATION
More informationPHYS 1405 Conceptual Physics 1 Laboratory #5 Momentum and Collisions. Investigation: Is the total momentum of two objects conserved during collisions?
PHYS 1405 Conceptual Physics 1 Laboratory #5 Momentum and Collisions Investigation: Is the total momentum of two objects conserved during collisions? What to measure: Velocities of two carts colliding
More informationPHYSICS 100 LAB 2: CHANGING MOTION
Name: Sec: Last 2 digits of St#: Partners: Date: PHYSICS 1 LAB 2: CHANGING MOTION A cheetah can accelerate from to 5 miles per hour in 6.4 seconds. Encyclopedia of the Animal World A Jaguar automobile
More informationMomentum Practice Problems
Momentum Practice Problems PSI AP Physics C Name Multiple Choice 1. A steel ball and a piece of clay have equal mass. They are dropped from the same height on a horizontal steel platform. The ball bounces
More informationImportant Vocabulary Speed vs Velocity Acceleration Graphs of Motion Momentum
Important Vocabulary Speed vs Velocity Acceleration Graphs of Motion Momentum Important Vocabulary Position-location of an object Distance-how far an object has traveled, regardless of direction Displacement-change
More informationAP Physics Ch 6 Day 4
Textbook Reference: Goal/Objectives: Sections 6.3 (Collisions) - Understand how momentum and kinetic energy relate to the 3 types of collisions: elastic, inelastic, and perfectly inelastic - Use projectile
More informationChapter 9: Impulse and Momentum
Conservation Laws Much of the rest of Phys 221 will be concerned with conservation of energy and momentum This new perspective of conservation laws requires us to compare situations BEFORE and AFTER an
More informationAP Physics 1 Momentum
Slide 1 / 133 Slide 2 / 133 AP Physics 1 Momentum 2015-12-02 www.njctl.org Slide 3 / 133 Table of Contents Click on the topic to go to that section Momentum Impulse-Momentum Equation The Momentum of a
More informationModule 18: Collision Theory
Module 8: Collision Theory 8 Introduction In the previous module we considered examples in which two objects collide and stick together, and either there were no external forces acting in some direction
More informationGravity Pre-Lab 1. Why do you need an inclined plane to measure the effects due to gravity?
Lab Exercise: Gravity (Report) Your Name & Your Lab Partner s Name Due Date Gravity Pre-Lab 1. Why do you need an inclined plane to measure the effects due to gravity? 2. What are several advantage of
More informationACTIVITY 2: Motion and Energy
Developing Ideas ACTIVITY 2: Motion and Purpose We use the idea of energy in many ways in everyday life. For example, there is sometimes talk of an energy crisis when fuel supplies run low; people eat
More informationb. 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?
Force, Mass, and Acceleration PhET Simulation 1. Click on the following link PhET Force and Motion Basics and click Net Force a. If you cannot access the link then type the following web address into your
More informationAlgebra Based Physics
1 Algebra Based Physics Momentum 2016 01 20 www.njctl.org 2 Momentum Click on the topic to go to that section Momentum Impulse Momentum of a System of Objects Conservation of Momentum Inelastic Collisions
More informationChapter 7. Impulse and Momentum
Chapter 7 Impulse and Momentum 7.1 The Impulse-Momentum Theorem There are many situations when the force on an object is not constant. 7.1 The Impulse-Momentum Theorem DEFINITION OF IMPULSE The impulse
More informationLAB 3 - VELOCITY AND ACCELERATION
Name Date Partners L03-1 LAB 3 - VELOCITY AND ACCELERATION OBJECTIVES A cheetah can accelerate from 0 to 50 miles per hour in 6.4 seconds. Encyclopedia of the Animal World A Jaguar can accelerate from
More informationPhysics 8 Wednesday, September 9, 2015
Physics 8 Wednesday, September 9, 2015 http://positron.hep.upenn.edu/physics8 You read Mazur Chapter 5 ( energy ) for today. Handing back HW1. HW2 (from Ch3,4) due Friday. Homework study sessions (optional):
More informationLab 4: Gauss Gun Conservation of Energy
Lab 4: Gauss Gun Conservation of Energy Before coming to Lab Read the lab handout Complete the pre-lab assignment and hand in at the beginning of your lab section. The pre-lab is written into this weeks
More informationLab: Conservation of Linear Momentum There is a quantity called linear momentum defined as the mass of an object times its velocity, i.e.
Lab: Conservation of Linear Momentum There is a quantity called linear momentum defined as the of an object times its velocity, i.e. p = m v, (1) where p is the symbol for linear momentum. Notice that
More informationSections 8.1 & 8.2 Systems of Linear Equations in Two Variables
Sections 8.1 & 8.2 Systems of Linear Equations in Two Variables Department of Mathematics Porterville College September 7, 2014 Systems of Linear Equations in Two Variables Learning Objectives: Solve Systems
More informationLAB 7: COLLISIONS AND MOMENTUM - NEWTON'S THIRD LAW
Lab 7 Collisions and Momentum Newton s Third Law 73 Name Date Partners LAB 7: COLLISIONS AND MOMENTUM - NEWTON'S THIRD LAW In any system of bodies which act on each other, action and reaction, estimated
More informationEnergy Analysis of a Mass Oscillating on a Spring Masses and Springs Simulation
Energy Analysis of a Mass Oscillating on a Spring Masses and Springs Simulation Using FIREFOX only, go to http://www.colorado.edu/physics/phet (or Google phet ) Click on Simulations, then Masses and Springs
More informationLAB 7: COLLISIONS AND MOMENTUM - NEWTON'S THIRD LAW
109 Name Date Partners LAB 7: COLLISIONS AND MOMENTUM - NEWTON'S THIRD LAW OBJECTIVES In any system of bodies which act on each other, action and reaction, estimated by momentum gained and lost, balance
More informationLAB 3: VELOCITY AND ACCELERATION
Lab 3 - Velocity & Acceleration 25 Name Date Partners LAB 3: VELOCITY AND ACCELERATION A cheetah can accelerate from to 5 miles per hour in 6.4 seconds. A Jaguar can accelerate from to 5 miles per hour
More informationDynamics Track Momentum, Energy, and Collisions
Dynamics Track Momentum, Energy, and Collisions Student Handout Collisions between objects create some interesting questions about which conservation laws apply. In this lab you will be comparing elastic
More informationAccording To Newton's Third Law For Every Action There Is An Equal And Opposite >>>CLICK HERE<<<
According To Newton's Third Law For Every Action There Is An Equal And Opposite Name Class Date Newton's third law of motion states that every action has an equal and opposite reaction. which are also
More informationExploring the Poles (Without Leaving Your Classroom!)
Exploring the Poles (Without Leaving Your Classroom!) Computer 37 Magnets have north and south poles. Do you think that the poles of differently shaped magnets are in different places? In this activity,
More informationUnit 4, More About Forces Lab 1, Interactions Between Objects
Unit 4, More About s Lab 1, Interactions Between Objects Name Date Period In the set of activities that follows, you will be asked to think about situations in which two objects interact. You should, in
More informationACTIVITY 5: Changing Force-Strength and Mass
UNIT FM Developing Ideas ACTIVITY 5: Changing Force-Strength and Mass Purpose In the previous activities of this unit you have seen that during a contact push/pull interaction, when a single force acts
More informationExtra 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.
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. NAME: 4. Units of power include which of the following?
More informationLab 3 Momentum Change and Impulse
Lab 3 Momentum Change and Impulse Objectives: < To measure the change in momentum of a cart in a collision and the impulse acting on it during the collision and to compare these values as a test of the
More informationPHYS 154 Practice Test 3 Spring 2018
The actual test contains 1 multiple choice questions and 2 problems. However, for extra exercise, this practice test includes 4 problems. Questions: N.B. Make sure that you justify your answers explicitly
More informationFrames of Reference, Energy and Momentum, with
Frames of Reference, Energy and Momentum, with Interactie Physics Purpose: In this lab we will use the Interactie Physics program to simulate elastic collisions in one and two dimensions, and with a ballistic
More informationNewton s Third Law, Momentum, Center of Mass
Team: Newton s Third Law, Momentum, Center of Mass Newton s Third Law is a deep statement on the symmetry of interaction between any two bodies in the universe. How is the pull of the earth on the moon
More informationExperiment P17: Conservation of Linear Momentum II (Photogate)
PASCO scientific Physics Lab Manual: P17-1 Experiment P17: Conservation of Linear Momentum II (Photogate) Concept Time SW Interface Macintosh file Windows file Newton s Laws 45 m 500 or 700 P17 Cons. of
More informationActivity P11: Collision Impulse and Momentum (Force Sensor, Motion Sensor)
Name Class Date Activity P11: Collision Impulse and Momentum (Force Sensor, Motion Sensor) Concept DataStudio ScienceWorkshop (Mac) ScienceWorkshop (Win) Newton s Laws P11 Impulse.DS P14 Collision P14_COLL.SWS
More informationPhysics 201: Lecture 14, Pg 1
Physics 201: Lecture 14, Pg 1 Physics 131: Lecture 15 Today s Agenda Impulse and Momentum (or the chapter where physicists run out of letters) Non-constant forces Impulse-momentum thm Conservation of Linear
More informationUnit 8. Unit 8 - MTM. Outcomes. What does the word momentum mean to you?
Outcomes Unit 8 THE MOMENTUM TRANSFER MODEL (MTM) I M P U L S E A N D M O M E N T U M Unit 8 - MTM P A R T 1 F O R C E S C H A N G E M O M E N T U M P A R T 2 M O M E N T U M I S C O N S E R V E D What
More informationConservation of Energy and Momentum
Objectives Conservation of Energy and Momentum You will test the extent to which conservation of momentum and conservation of energy apply to real-world elastic and inelastic collisions. Equipment air
More informationName 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:
The exam is closed book and closed notes. There are 30 multiple choice questions. Make sure you put your name, section, and ID number on the SCANTRON form. The answers for the multiple choice Questions
More informationSection 4.9: Investigating Newton's Second Law of Motion
Section 4.9: Investigating Newton's Second Law of Motion Recall: The first law of motion states that as long as the forces are balanced an object at rest stays at rest an object in motion stays in motion
More information#11 10/15 FORCES combining
#11 10/15 FORCES combining Combined Forces When Force A and B are equal When Force A is greater than B When Force B is greater than A What do you think will happen to the scarf in the middle? Predict it
More informationSection 1 Momentum and Impulse. Chapter 6. Preview. Objectives Linear Momentum. Houghton Mifflin Harcourt Publishing Company
Section 1 Momentum and Impulse Preview Objectives Linear Momentum Section 1 Momentum and Impulse Objectives Compare the momentum of different moving objects. Compare the momentum of the same object moving
More informationActivity 8. Conservation of Momentum. What Do You Think? For You To Do GOALS. The outcome of a collision between two objects is predictable.
Activity 8 Conservation of Momentum Activity 8 Conservation of Momentum GOALS In this activity you will: Understand and apply the Law of Conservation of Momentum. Measure the momentum before and after
More information