Collisions A B Conservation of Momentum A B During a collision, if the net external force on the system is zero, then the momentum of the system is constant.

Slides:

Advertisements

Similar presentations

Example: A 10 g bullet is fired at a steel plate

Advertisements

Example: If you were to jump off of a building would you prefer to land on a large air mattress or a concrete slab? Why? (Assume you stop after impact)

Chapter 7 Linear Momentum.

Momentum and Impulse.

Linear Momentum and Collisions

Impulse, Momentum and Collisions

Linear Momentum why is more force needed to stop a train than a car if both travel at the same speed? why does a little tiny bullet have so much impact?

Q8.1 A ball (mass 1.0 kg) is initially moving to the left at 30 m/s. After hitting the wall, the ball is moving to the right at 20 m/s. What is the impulse.

Conservation of Momentum

MOMENTUM AND IMPULSE Chapter 7.

A. Rolling in the Rain An open cart rolls along a frictionless track while it is raining. As it rolls, what happens to the speed of the cart as the rain.

Chapter 6 Momentum 1.MOMENTUM Momentum - inertia in motion Momentum = mass times velocity Units - kg m/s or sl ft/s.

Momentum Impulse, Linear Momentum, Collisions Linear Momentum Product of mass and linear velocity Symbol is p; units are kgm/s p = mv Vector whose direction.

Momentum and Collisions

1.MOMENTUM l Momentum = mass times velocity Units - kg m/s.

AP Physics Review Ch 7 – Impulse and Momentum

Chapter 7 Impulse and Momentum.

AP Physics Impulse and Momentum. Which do you think has more momentum?

Fri. Feb. 25th1 PHSX213 class Class stuff –Questions ? Conservation of Linear Momentum Collision terminology Collisions.

Momentum and Impulse Momentum = mass x velocity p = mv units: kg·m/s ***momentum is a vector quantity Conceptually, momentum is a characteristic of motion.

Higher Physics – Unit – Momentum and Impulse.

Conservation of Momentum. Conserved Total momentum of a system before and after an interaction remains constant Momentum before = Momentum After Two balls.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Momentum and Collisions Chapter 6 Table of Contents Section 1 Momentum.

Physics Chapter 6 Impulse and Momentum.

© Houghton Mifflin Harcourt Publishing Company Section 1 Momentum and Impulse Chapter 6 Linear Momentum Momentum is defined as mass times velocity. Momentum.

Chapter 6 Preview Objectives Linear Momentum

Chapter-7 Momentum and Impulse 1Momentum 2Impulse 3 Conservation of Momentum 4 Recoil 5 Elastic and Inelastic Collisions 6 Collisions at an Angle: An Automobile.

Linear Momentum why is more force needed to stop a train than a car if both travel at the same speed? why does a little tiny bullet have so much force.

Momentum Momentum is defined as “Inertia in Motion” p = mv.

Momentum Practice Problems

1 1) speeds up 2) maintains constant speed 3) slows down 4) stops immediately An open cart rolls along a frictionless track while it is raining. As it.

CHAPTER 7 MOMENTUM AND COLLISIONS

Momentum and Collisions

Copyright © by Holt, Rinehart and Winston. All rights reserved. Concept Check – Momentum (3) An open cart rolls along a frictionless track while it is.

 MOMENTUM:  Inertia in motion  Linear momentum of an object equals the product of its mass and velocity  Moving objects have momentum  Vector quantity.

Momentum and Its Conservation

1 PPMF102– Lecture 3 Linear Momentum. 2 Linear momentum (p) Linear momentum = mass x velocity Linear momentum = mass x velocity p = mv p = mv SI unit:

Chapter 6 Momentum and Impulse

Momentum & Impulse Level 1 Physics.

Chapter 7 Impulse and Momentum. There are many situations when the force on an object is not constant.

Chapter 6 Momentum and Impulse. Momentum The product of an object’s mass and velocity: p = mv Momentum, p, and velocity, v, are vector quantities, meaning.

Chapter 9-10 Clicker Questions

1.To understand what momentum is 2.To understand conservation of momentum and to be able to complete related calculations 3.To understand different types.

Linear Momentum Impulse & Collisions. What is momentum?  Momentum is a measure of how hard it is to stop or turn a moving object.  What characteristics.

MOMENTUM the product of mass and velocity Units are kgm/s, or any mass velocity combo Example: Which has more momentum, a 8000-kg hippo trotting at 1.5.

Chapter 9 - Collisions Momentum and force Conservation of momentum

Chapter 7 Impulse and Momentum. 7.1 The Impulse-Momentum Theorem DEFINITION OF IMPULSE The impulse of a force is the product of the average force and.

MOMENTUM AND COLLISIONS. Momentum is the product of the mass and velocity of a body. Momentum is a vector quantity that has the same direction as the.

Lecture 13: Momentum. Questions of Yesterday 1) A mass with speed v hits a horizontal spring and compresses it a distance d. If the the speed of the mass.

Lecture 14: Collisions & Momentum. Questions of Yesterday A 50-kg object is traveling with a speed of 100 m/s and a 100-kg object is traveling at a speed.

Physics Section 6.3 Apply the physics of collisions Inelastic collision – two objects stick together after colliding. The two objects become one object.

Momentum Momentum and Collisions This chapter is concerned with inertia and motion. Momentum helps us understand collisions.

Phys211C8 p1 Momentum everyday connotations? physical meaning the “true” measure of motion (what changes in response to applied forces) Momentum (specifically.

 car crashes car crashes 

Momentum and Its Conservation Review. Momentum is a ___ quantity scalar 2.vector

Definition Formula Units Momentum Vector quantity Direction matches direction of velocity.

Would you rather be hit by a tennis ball or a bowling ball?

Chapter-7 Momentum and Impulse 1Momentum 2Impulse 3 Conservation of Momentum 4 Recoil 5 Elastic and Inelastic Collisions 6 Collisions at an Angle: An Automobile.

Ch. 9 Impulse and Momentum. Impulse (I) force X change in time I=FΔt.

PHY 101: Lecture The Impulse-Momentum Theorem 7.2 The Principle of Conservation of Linear Momentum 7.3 Collision in One Dimension 7.4 Collisions.

Chapter 9:Linear Momentum

Momentum The property of moving object has that makes it difficult to stop. (technically, product of mass and velocity) Formula: p = mv.

Chapter 5 Momentum.

Momentum and Its Conservation

PHYSICS 103: Lecture 13 Review of HW Momentum Agenda for Today:

Chapter 7 Impulse and Momentum.

Collisions A B. Collisions A B Conservation of Momentum B During a collision, if the net external force on the system is zero, then the momentum of.

Chapter 7 Impulse and Momentum.

Homework: WS: momentum & impulse

Presentation transcript:

Collisions A B

Conservation of Momentum A B During a collision, if the net external force on the system is zero, then the momentum of the system is constant. The momentum of each object in the system will change due to internal forces, but the total momentum of the system remains constant.

Example A B m B =1.0 kg and m A =0.5 kg. Initially, cart B is at rest and cart A moves with an x-velocity of 0.25 m/s. After the collision, cart A moves in the -x direction with a speed of 0.04 m/s. What is the velocity of cart B after the collision?

Types of collisions elastic collision -- kinetic energy is conserved inelastic collision -- kinetic energy is not conserved Note: “sticky” collisions are always inelastic. They are called completely inelastic collision.

Sticky Collision A B m B =1.0 kg and m A =0.5 kg. Initially, cart B is at rest and cart A moves with an x-velocity of 0.25 m/s. After the collision, the carts stick together. What is their final velocity?

Sticky Collision--Loss of energy A B For the previous question, how much kinetic energy is lost due to the collision?

Example A 250-lb linebacker running with a speed of 0.8 m/s tackles a 200-lb quarterback who is initially at rest. After the collision, they have the same velocity. What is their velocity? Footall collisions

Impulse Impulse is defined as If an object comes to a stop in a short time interval, then the force on the object is LARGE. If an object comes to a stop in a long time interval, then the force on the object is small.

Longer time interval, smaller force

Shorter time interval, larger force

Air bags smart car crash test Volvo crash test

Poll Two carts on a track collide and stick together. Which quantities are conserved during the collision? 1.momentum 2.kinetic energy 3.both momentum and kinetic energy 4.neither momentum nor kinetic energy

Poll A 300-lb lineman who is running full speed collides with and tackles a 200-lb quarterback who is initially at rest. The magnitude of the change in momentum of the quarterback is 1.less than the magnitude of the change in momentum of the lineman 2.greater than the magnitude of the change in momentum of the lineman 3.equal to the magnitude of the change in momentum of the lineman

Poll A 300-lb lineman who is running full speed collides with and tackles a 200-lb quarterback who is initially at rest. The magnitude of the change in velocity of the quarterback is 1.less than the magnitude of the change in velocity of the lineman 2.greater than the magnitude of the change in velocity of the lineman 3.equal to the magnitude of the change in velocity of the lineman

Poll In one case, a superball is thrown at a wall with an initial speed v in the +x direction and rebounds backward with a speed v in the -x direction. In a second case, a piece of clay of the same mass is thrown at the wall and sticks to the wall. On which object is the change in momentum the greatest? 1.superball 2.clay 3.neither, because the impulse on each object is the same

Poll A rifle lying on the ground at rest discharges and shoots a bullet. The rifle’s mass is of course greater than the bullet’s mass. Which object will have a greater magnitude final momentum? 1.rifle 2.bullet 3.neither, they will have the same momentum

Poll A rifle lying on the ground at rest discharges and shoots a bullet. The rifle’s mass is of course greater than the bullet’s mass. Which object will have a greater magnitude final velocity? 1.rifle 2.bullet 3.neither, they will have the same momentum

In a crash test, identical vehicles carry identical test dummy “drivers.” Both vehicles are going at 20 m/s (over 40 mi/hr) when they crash head-on into a brick wall and are brought to a stop. Dummy 1’s vehicle has no safety devices. Dummy 2’s vehicle has an air bag that inflates on impact. If we compare the total impulses exerted on the two drivers as each is brought to a stop, the impulse on dummy 2 is ________________ the impulse on dummy 1. A. greater than B. equal to C. less than

In a crash test, identical vehicles carry identical test dummy “drivers.” Both vehicles are going at 20 m/s (over 40 mi/hr) when they crash head-on into a brick wall and are brought to a stop. Dummy 1’s vehicle has no safety devices. Dummy 2’s vehicle has an air bag that inflates on impact. If F is the average force exerted on a dummy during its collision, and  t is the time interval for which it is exerted, then________________. A. F is greater on dummy 1 but  t is the same for 1 and 2 B. F is greater on dummy 1 but  t is greater for dummy 2 C. F is the same on both but  t is greater for dummy 2 D. F and  t are both greater for dummy 1