Momentum Chapter 9-Glencoe Chapter 7-Cutnell & Johnson.

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Presentation transcript:

Momentum Chapter 9-Glencoe Chapter 7-Cutnell & Johnson

What you already know: :  A vector quantity that is a measure of the change in displacement per unit change in time. :  A vector quantity that is a measure of the change in velocity per unit change in time. :  A scalar quantity that is a measure of the amount of matter an object contains. :  A vector quantity consisting of a push or pull that may cause an object to change direction or velocity, or both.

Momentum (p) What is momentum?  Momentum is a that is the product of an object’s times its. p = Momentum can be thought of as the of an object to continue to move in a direction of travel. Momentum can be thought of as.

Effects of mass and velocity on Momentum A bowler is experimenting with a couple of bowling balls, one with a mass of 3.5 kg and the other with a mass of 7.0 kg.  What will be the effect on momentum if the bowler changes from the 3.5 kg bowling ball to the 7.0 kg bowling ball if the velocity remains constant?  What will be the effect on momentum if the bowler changes the velocity with which he bowls from 1 m/s to 2 m/s? Changes in and are to changes in ; e.g. if you one, you will the other.

How do you stop an object from moving?  You apply a. If the is applied in the direction, it will the object down. If the is applied in the direction, it will cause the object to up.  : __ = ______

Impulse and Newton’s 2 nd Law Newton’s 2 nd Law of Motion: F net = ma = m  If you multiply both sides by ___ ______ = ______  or ______ = ______  This equation is the - Theorem. The (______) is equal to the in (______) that the force causes.

Units for Impulse and Momentum What are the units for momentum? 1 Unit of Momentum = 1 What are the units for Impulse? 1 Unit of Impulse = 1 Since equals : ______ = ______

Example 1: A batter makes contact with a kg baseball traveling at 40 m/s with an average force of 5,000 N for seconds. What is the momentum and velocity of the ball after it leaves the bat.

Diagram the Problem If the initial velocity of the ball is assumed to be in the positive direction, then the ball will be moving in the negative direction after making contact with the bat. Before After

Solve the Problem ______ = ___ – ___ v f =

Using Impulse and Momentum for Safety A impulse will result in a change in momentum.  A large impulse can result from a over a very period of. For automotive safety, seatbelts, air bags and crumple zones the on the occupants by the over which deceleration occurs.

Example 2: A 2,200 kg SUV is traveling at 94 km/hr (~55 mph) stops in 21 seconds when using the brakes gently or 5.5 seconds when in a panic. However, the vehicle will come to a halt in 0.22 seconds if it hits a concrete wall. What is the average force exerted in each of these stops?

Diagram the Problem v i = p i = v f = pfpf

Solve the Problem ______ = ____ – ____ ______ = ____ ______ = -_____ 0 t21 s5.5 s0.22 s F

Conservation of Momentum Newton’s 3 rd Law of motion says that for every action there is an and reaction.  The force on one object is and the force on the other object

Collisions Assume both balls are moving in opposite directions. The - Theorem can be used to analyze the collision from both object’s perspective  For cue ball: ______ = ______ – ______ (1)  For 8 ball: ______ = ______ – ______ (2)

Collisions Solving (1) and (2) for the initial momentum of each object before the collision gives us:  ______ = ______ – ______(3)  ______ = ______ – ______(4) As per Newton’s 3 rd Law: ______ = ______  Substituting the latter into (4) and then adding the two equations together yields: p cue(i) = ______ – ______ p 8(i) = ______ + ______ ______ + ______ = ______ + ______

Law of Conservation of Momentum Hence, the of the of two bodies before a collision is the same as the of their after a collision. _____ + _____ = _____ + _____ or _______ + _______ = _______ + _______ It is most simply written as: ______ = ______ Conservation of Momentum is true for a closed system where all the forces are.

Example 3 Cart A approaches cart B, which is initially at rest, with an initial velocity of 30 m/s. After the collision, cart A stops and cart B continues on with what velocity? Cart A has a mass of 50 kg while cart B has a mass of 100kg. A B

Diagram the Problem A B Before Collision: After Collision:

Solve the Problem _______ = _______ ______ + ______ = ______ + ______ ______ = ______ v B2 =

Example 4 Cart A approaches cart B, which is initially at rest, with an initial velocity of 30 m/s. After the collision, cart A and cart B continue on together with what velocity? Cart A has a mass of 50 kg while cart B has a mass of 100kg. A B

Diagram the Problem A B Before Collision: After Collision: Note: Since the carts stick together after the collision, ___ = ___ = ___

Solve the Problem ______ = ______ ______ + ______ = ______ + ______ ______ = ____________ v 2 =

Center of Mass A measure of the average location for the total of a system of objects.

Center of Mass and Momentum While the velocity of various particles in a system may change in the event of a collision, the velocity of the of will remain and the collision.

7.4 Collisions in Two Dimensions

Key Ideas Momentum is a equal to the mass of an object times its velocity. Impulse is equal to the on an object times the amount of that the force was applied to the object. The I - theorem equates impulse to momentum (FΔt = mΔv). Conservation of momentum requires that the of a system a collision is to the of the system the collision.