Impulse & Momentum. 2 of 42 Have you ever wondered… Why golfers and bowlers “follow through”? Why skydivers bend their knees upon impact? Why falling.

Slides:



Advertisements
Similar presentations
MOMENTUM AND COLLISIONS
Advertisements

Physics Spring 2012 Chapter 6 - Momentum Momentum Impulse Impulse Changes Momentum Bouncing Conservation of Momentum Collisions More Complicated.
Chapter 6: MOMENTUM.
Momentum and Impulse.
Conceptual Physics 11th Edition
Impulse & Momentum.
Physics 11, Unit 3 This section: see pages 195 to 205 in text
Impulse and Momentum Honors Physics.
MOMENTUM AND IMPULSE Chapter 7.
Motion & Forces Action and Reaction  Newton’s Third Law  Momentum  Conservation of Momentum.
Conservation of Momentum Momentum before interaction = Momentum after interaction.
AP Physics Review Ch 7 – Impulse and Momentum
Chapter 6 Momentum Impulse Impulse Changes Momentum Bouncing
Chapter 7: Impulse and Momentum
Linear Momentum & Impulse
Momentum and Impulse.
Momentum Chapter 8. Momentum Chapter 8 Objectives Define momentum. Define impulse and describe how it affects changes in momentum. Explain why an impulse.
Momentum and Collisions Review
Ch. 8 Momentum and its conservation
Physics Chapter 6 Impulse and 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 can be defined as "mass in motion." Momentum = mass * velocity p = m * vkg*m/sUnits are Momentum is a vector quantity. It has both magnitude.
Momentum and Impulse Vectorman productions present: A Nick enterprise: this product is intended for the serious physics student, if you are not a serious.
Momentum Momentum is defined as “Inertia in Motion” p = mv.
SACE Stage 1 Conceptual Physics
Impulse & Momentum.
1 Momentum and Its Conservation Or How I Learned to Love Collisions.
Momentum & Impulse Level 1 Physics.
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.
Iraq moves to defuse war momentum Storm Gains Momentum, But Not Power, In Trek Across Gulf Group hopes to gain Momentum with improv events Push For FDA.
Momentum Chin-Sung Lin.
Momentum Introduction to Momentum. What is Momentum? The quantity of motion of a moving body Depends on mass and velocity Measured by multiplying mass.
Would you rather be hit by a tennis ball or a bowling ball?
Momentum and Collisions Unit 6. Momentum- (inertia in motion) Momentum describes an object’s motion Momentum equals an object’s mass times its velocity.
Momentum and Collisions Linear Momentum The linear momentum of a particle or an object that can be modeled as a particle of mass m moving with a velocity.
Momentum. Introduction to Momentum Momentum can be defined as "mass in motion." All objects have mass; so if an object is moving, then it has momentum.
Momentum. It was first introduced by Isaac Newton. Momentum is symbolized by the letter ‘p’ It means inertia in motion.
Chapter 7 – Momentum Inertia in motion!!! An object in motion will stay in motion until a force acts to stop it. Momentum = mass x velocity (kg * m/s)
Momentum and Collisions Momentum and Impulse  The momentum of an object is the product of its mass and velocity: p=mv  Units of momentum: kg·m/s.
Momentum.
We will be playing Jeopardy today! Please come up with a team name and write it on the board above your team number.
Conceptual Physics 11th Edition
Momemtum/Impulse/ Conservation of Momentum. Momentum Momentum can be defined as "mass in motion." All objects have mass; so if an object is moving, then.
1. Momentum is often called ________ in motion Answer: inertia.
Chapter 7 Momentum. Remember: Inertia is the resistance of any moving or nonmoving object to change its state of motion.
Momentum Momentum and Collisions This chapter is concerned with inertia and motion. Momentum helps us understand collisions.
Momentum: Unit 5. What is Momentum?  Momentum: ___________ in motion  Momentum= Mass x Velocity  ____________ = Mass x Speed – when direction is not.
Chapter 7: Momentum I. Momentum (7.1) A. momentum– “inertia in motion” 1.Mass of an object multiplied by its velocity Momentum = mass x velocity.
 car crashes car crashes 
Momentum and Its Conservation Review. Momentum is a ___ quantity scalar 2.vector
Applied Science III - Finau. What is inertia?  An object’s ability to change its motion  A measure of the amount of matter within the object.
1 Do Now: What makes the shuttle go UP? Objectives: Utilize IMPULSE to calculate: Force – time – change in velocity Home work: Page 233: #’s 1 – 5 all.
“The quality of Motion”. Momentum A vector quantity defined as the product of an objects mass and velocity.
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.
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.
Bell Ringer After reading the article Does slamming on the brakes save your brake pads? Do you believe this saves gas?
Momentum. The force that is required to move an object or stop an object moving depends on: The object’s mass The object’s velocity Momentum is defined.
Unit 5 Momentum Impulse Impulse Changes Momentum Bouncing
Conceptual Physics 11th Edition
Impulse & Momentum.
Chapter 6 Momentum Impulse Impulse Changes Momentum Bouncing
Linear Momentum Impulse & Collisions.
Momentum.
UNIT 5 – Momentum and Impulse Chapter 8
MOMENTUM.
Conceptual Physics 11th Edition
Momentum Ch. 6.
Momentum and Momentum Change
Chapter 6 Momentum Impulse Impulse Changes Momentum Bouncing
Presentation transcript:

Impulse & Momentum

2 of 42 Have you ever wondered… Why golfers and bowlers “follow through”? Why skydivers bend their knees upon impact? Why falling on a wood floor (or into a swimming pool) hurts less than falling on a cement one?

3 of 42 Have you ever wondered… What’s the best strategy to win a “water balloon toss” or an “egg toss”? Why we make auto air bags and padded dash boards? How the police can figure out how fast you were going BEFORE an accident by measuring your skid marks?

4 of 42 Impulse and Momentum ImpulseMomentum To answer all of these questions--you need to understand: Impulse and Momentum Recall, Newton’s first law…The Law of Inertia The study of inertia for moving objects is the study of “momentum”

5 of 42 Consider the following: When a baseball bat hits a baseball, a force is applied OVER A SHORT PERIOD OF TIME.

6 of 42 Impulse Defn: A force applied over a period of time is called an IMPULSE. What are the SI units of Impulse?

7 of 42 Example - Impulse A batter hits a 0.5 kg ball with a force of 200N. If the time of contact was seconds, find the impulse of the ball.

8 of 42 Example #2 A batter hits a 0.5 kg ball with a force of 500N. If the time of contact was seconds, find the impulse of the ball. a) 0 N·s b) N·s c) N·s d) N·s e) I have no clue…

9 of 42 Example #3 A batter hits a 0.5 kg ball with a force of 500N. If the impulse is 75 N·s, then what is the contact time between the ball & bat? a) 0 sec b) sec c) 75 sec d) sec e) I have no clue…

10 of 42 Answer: (b) A batter hits a 0.5 kg ball with a force of 500N. If the impulse is 75 N·s, then what is the contact time between the ball & bat?

11 of 42 Example #4 A batter hits a 0.5 kg ball and the impulse given to the ball is 125 N·s. If the ball & bat are in contact for 200 milli-seconds, then what is the force of the bat? a) 0 N b) N c) 2.5 N d) 625 N e) I have no clue…

12 of 42 Back to baseball...Which will have the greater speed afterward? A large or a small ball? A fast or a slow ball? A large or a small bat? A fast or a slow swing?

13 of 42 Momentum Defn: The MOMENTUM of a body is equal to the product of its mass and its velocity. Is momentum a vector or a scalar? What are the SI units of momentum?

14 of 42 Example #5 A boy standing at one end of a floating raft that is stationary relative to the shore walks to the opposite end of the raft, away from the shore. As a consequence, the raft. (a) remains stationary, (b) moves away from the shore, (c) moves toward the shore (d) Not enough information given

15 of 42 Answer: (c) A boy standing at one end of a floating raft that is stationary relative to the shore walks to the opposite end of the raft, away from the shore. As a consequence, the raft. Answer: (c) moves toward the shore - Newton’s 3 law

16 of 42 Example #6 Which has a greater momentum, a heavy truck at rest or a moving skateboard? (a) Heavy truck, (b) Skateboard, (c) Neither (same momentum) (d) Not enough information given

17 of 42 Answer: (b) Which has a greater momentum, a heavy truck at rest or a moving skateboard? Answer: (b) The truck at rest has no speed, hence no momentum. So the moving skateboard has greater momentum.

18 of 42 Making the Connection: Look at the units of Impulse and Momentum…Do you notice anything? Recall, F = m·a…can you rearrange the equation to say something about Impulse or Momentum?

19 of 42 Making the Connection: F = m a A = v/t F = m (v/t) Ft = mv Impulse = Momentum!

20 of 42 The Impulse-Momentum Theorem When a net force acts upon a body for a period of time, the Impulse applied by the force is equal to the body’s change in Momentum!

21 of 42 Impulse-Momentum Theorem #1: If your Force is limited, how can you MAXIMIZE the impulse you apply? By increasing the time of contact! Golfing…Baseball…

22 of 42 Impulse-Momentum Theorem #2 If your change in momentum is constant, how can you MINIMIZE the force applied to you? By increasing the time of contact! Bending knees upon impact, rolling with the punches, crumple zones, running shoes, air bags…

23 of 42 Momentum Changes and Bouncing Is it more dangerous when a flower pot falls on your head and breaks or stays in one piece and bounces back up? When an object bounces, what happens to it’s velocity? How does that effect it’s change of momentum? Since ∆p is greater in bouncing situations, the Impulse applied will be greater!

The Law of Action-Reaction A collision is an interaction between two objects which have made contact (usually) with each other. A collision results in a force being applied to the two colliding objects. Such collisions are governed by Newton's laws of motion.

Newton's third law of motion applied to collisions between two objects. In a collision between two objects, both objects experience forces which are equal in magnitude and opposite in direction. Such forces cause one object to speed up (gain momentum) and the other object to slow down (lose momentum). According to Newton's third law, the forces on the two objects are equal in magnitude.

Effect of collisions on acceleration While the forces are equal in magnitude and opposite in direction, the acceleration of the objects are not necessarily equal in magnitude.

And so, in comes Newton ’ s Second Law of Motion The acceleration of an object is dependent upon both force and mass. Thus, if the colliding objects have unequal mass, they will have unequal accelerations as a result of the contact force which results during the collision.

Example: A collision occurs between the moving club head and the stationary golf ball.

You can observe unequal accelerations. Although there is a high speed given to the ball as the result of the collision, you are not observing unequal forces upon the ball and club head.

F = m * a Since club head and ball experience equal forces, but the mass of the ball is much smaller than that of the club, acceleration will be bigger. The least massive object receives the greatest acceleration.

the law of conservation of momentum For a collision occurring between object 1 and object 2 in an isolated system, the total momentum of the two objects before the collision is equal to the total momentum of the two objects after the collision.

the law of conservation of momentum the momentum lost by object 1 is equal to the momentum gained by object 2 total momentum of a collection of objects (a system) is conserved the total amount of momentum is a constant or unchanging value.

The Equation p A1 + p B1 = p A2 + p B2

Inelastic Collisions Post-collision: The objects stick together. Ex: Catching a ball Treat the mass post-collision as one unit (add together). (m A x v 1A ) + (m B x v 1B ) = (m A + m B ) x v 2

35 of 42 Example #7 Jocko, who has a mass of 60kg and stands at rest on ice, catches a 20kg ball that is thrown to him at 3m/s. How fast do Jocko and the ball move across the ice? (a)0 m/s (b).75 m/s (c) 200 m/s (d) no way to determine

36 of 42 Answer: (b) (b): The momentum before the catch is all in the ball, 20kg x 3m/s = 60kg·m/s. This is also the momentum after the catch, where the moving mass is 80kg (60kg for Jocko and 20kg for the caught ball.) 80kg x v = 60kg·m/s v = 60kg·m/s/80kg =.75m/s

Elastic Collisions Each object remains independent after the collision. Ex: playing billiards (pool) (m A x v 1A ) + (m B x v 1B ) = (m A x v 2A ) + (m B x v 2B )

38 of 42 Example #8 Which would be more damaging: (a)Driving into a massive concrete wall (b)Driving at the same speed into a head-on collision with an identical car traveling toward you at the same speed (c)Neither - the same amount of damage (d)Not enough information given

39 of 42 Answer: (c) (c): Both cases are equivalent, because either way, your car rapidly decelerates to a dead stop. The dead stop is easy to see when hitting the wall, and identical cars at equal speeds means equal momenta—zero before, zero after collision.

Recoil When a gun is fired, remember Newton’s Third Law (action-reaction.) The energy of the explosion sends the bullet forward, but also sends the gun backwards. The backwards motion of the gun is called Recoil.

41 of 42 Example #9 Strictly speaking, when a gun is fired, compared with the momentum of the recoiling gun, the opposite momentum of the bullet is (a) less (b) more (c) the same (d) no way to determine (Neglect the effect of the hand.)

42 of 42 Answer: (a) (a) Why? Because more than just a bullet comes out of the barrel when a gun is fired. The gas, formed when the powder in the cartridge burns, pushes the bullet along the barrel and this gas too has appreciable mass and exits at high speed. So, Momentum of recoiling gun = momentum of bullet + momentum of gases.

The End...