A CRASH COURSE IN COLLISIONS & EXPLOSIONS. Momentum Agent 006 1/2 (better know as Johnny Bondage) is in a bit of trouble. He can either be hit by the.

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Presentation transcript:

A CRASH COURSE IN COLLISIONS & EXPLOSIONS

Momentum Agent 006 1/2 (better know as Johnny Bondage) is in a bit of trouble. He can either be hit by the bullet or by the car. Which would be worse for him? Agent 006 ½ Speeding car Mass = 1500 kg v = 15 m/s Gun Mass of bullet = kg v = 600 m/s

Momentum The combination of velocity and mass is called the quantity called momentum. p = m x v The units for momentum are:kg x m/s Objects that are not moving have no momentum or objects that have no mass (ie. Light even though travelling at very high speeds) have no momentum.

Momentum ObjectMassVelocityMomentum (kgm/s) Person walking75 kg1.4 m/s Pick up truck3400 kg21 m/s A jet airliner2.2 x 10 5 kg225 m/s Large ocean ship1.2 x 10 7 kg7.3 m/s A large asteroid4.5 x kg7500 m/s Calculate the momentum of some “common” objects: x x x 10 18

Momentum Collisions and explosions are all about “changing” an objects momentum. Explosions are just like collisions, just running backwards! Momentum can accurately describe both collisions and explosions.

Momentum A car is travelling at 15 m/s down a road. The driver applies the brakes slowing the car down to 7.0 m/s. Mass = 1400 kg v = 15 m/s Mass = 1400 kg v = 7.0 m/s What is the car’s change in momentum? Example 1:

Momentum Δp = p 2 - p 1 Solution: Δp = (mv) 2 - (mv) 1 Δp = (1400 x 7.0) - (1400 x 15) Δp = Δp = kgm/s Note: Negative sign here. (what does it mean?)

Momentum But how is the car’s momentum changed? Answer: The brakes are applied. The brake pads squeeze the rotor attached to the wheels creating a lot of friction and generating heat. The car has a decrease in speed and therefore has a decrease in momentum.brakes are applied This requires the use of FORCE. So changing one’s momentum involves the use of Force!

Momentum  Force can only be applied over some time period  When you apply a force over some time period you can change the speed of an object and hence change it’s momentum!!! F x t = Δp Force x time = change in momentum

Momentum Force x time = Impulse The quantity of Force x time is also given the name of “IMPULSE”. Impulse = F x t = Δp = change in Momentum “I need Impulse power now #1!

Momentum Example Problem #1: A kg ball travelling at 24 m/s is hit with a bat. The bat stays in contact with the ball for 0.23 s and causes the ball to rebound at a speed of 32 m/s. What force was imparted to the ball? v = 24 m/s v = 32 m/s

Momentum Solution: F x t = Δp F x t = (mv) 2 - (mv) 1 F x t = p 2 - p 1 F x o.23 s = (0.200 kg x -32 m/s) - (0.200 kg x 24 m/s) F x o.23 s = (-6.4 kgm/s) - (4.8 kgm/s) F x o.23 s = kgm/s Note: Change in momentum is now bigger the individual original momentums and is negative. Why?

Momentum F = kgm/s 0.23 s F =- 49 N Note: The negative force answer indicates the force was applied in the opposite direction of the ball’s original motion (1 kgm/s 2 = 1 N) Do Practice Problems #1- 3 p

Momentum Example Problem #2 A 1800 kg car is travelling at 12m/s east down a road. A force of 2300 N is applied by the cars tires to the road over a time of 4.7 s resulting in the car increasing it’s speed in the same direction. What is the car’s new speed? m = 1800 kg v = 12 m/s m = 1800 kg v = ? Force = 2300 N t = 4.7 s

Momentum Solution: F x t = Δp F x t = (mv) 2 - (mv) 1 F x t = p 2 - p N x 4.7 s = (1800 kg x v) - (1800 kg x 12 m/s) kgm/s = (1800 kg x v) - (21600 kgm/s) kgm/s kgm/s = (1800 kg x v)

Momentum kgm/s = 1800 kg x v kgm/s = v 1800 kg 18 m/s = v

Conservation of Momentum The Law of the Conservation of Momentum is one of the most important discoveries in Physics. It was essentially discovered by Newton (His Third Law of Motion is another way Stating this law). This law is currently being used in the $16 billion Large Hadron Collider recently completed in Europe.

Conservation of Momentum Law of Conservation: The total momentum of the universe is a constant. or The total momentum of an isolated system of objects remains constant.

Conservation of Momentum Or yet another way of saying the same thing: Momentum before = Momentum after Momentum total before = Momentum total after p 1before + p 2before = p 1after + p 2after Total p before = Total p after

Conservation of Momentum Example 1: A 4.0 kg toy truck travelling at 2.0 m/s due east collides with a stationary 2.4 kg toy car. After the collision the two vehicles stick together. What is the initial velocity of the stuck vehicles after the collision? m = 2.4 kg v = 0 m/s m = 4.0 kg v = 2.0 m/s m = 2.4 kg kg v = ?

Conservation of Momentum 8.0 kgm/s = (6.4 kg) x v Solution:p b = p a p tb + p cb = p ta + p ca (4.0 kg x 2.0 m/s) + 0 kgm/s = ( kg)x v (8.0 kgm/s) = v (6.4 kg) 1.3 m/s = v

Conservation of Momentum Example 2: A 1.2 kg green puck travelling at 2.0 m/s due east collides with a 2.4 kg red puck travelling at 4.5 m/s due west. After the collision the red puck travels due west at 2.5 m/s. What is the velocity of the green puck after the collision? m = 1.2 kg m = 2.4 kg v = 2.0 m/s v = 4.5 m/s v = 2.5 m/s v = ?

Conservation of Momentum 2.4 kgm/s kgm/s = (1.2 kg x v) + (-6.0 kgm/s) Solution:p b = p a p gb + p rb = p ga + p ra (1.2 kg x 2.0 m/s) + ( 2.4 kg x -4.5 m/s) = (1.2 kg x v) + (2.4 kg x -2.5 m/s) (-8.4 kgm/s kgm/s) = 1.2 kg x v Why the negative sign? -2.4 kgm/s = v 1.2 kg -2.0 m/s = v Why the negative sign?

Conservation of Momentum Example 3: At what velocity will a kg fly have to travel to stop a kg truck initially travelling at 19 m/s due east? v = 19 m/s m = kg v = ? m = kg v = o m/s After:

Conservation of Momentum kgm/s + (0.025 kg x v) = 0 Solution:p b = p a p tb + p fb = 0 (65000 kg x 19 m/s) + ( kg x v) = kgm/s = kg x v Why the negative sign? kgm/s = v kg -4.9 x 10 7 m/s = v Why the negative sign? Why no momentum after? Talk about Superfly!!

Conservation of Momentum A 3.5 kg truck is made up of a 1.1 kg tractor and a 2.4 kg trailer. This truck is travelling along at 2.5 m/s when a small firecracker explodes separating the tractor from the trailer. The tractor travels at 4.0 m/s after the small explosion. What is the initial velocity of the trailer after the explosion? Example 4: v = 2.5 m/s m = 1.1 kgm = 2.4 kg m = 1.1 kg v = 4.0 m/s m = 2.4 kg v = ?

Conservation of Momentum 8.75 kgm/s = (4.4 kgm/s) + (2.4 kg x v) Solution:p b = p a p 1b = p 1a + p 2a (3.5 kg x 2.5 m/s) = (1.1 kg x 4.0 m/s) + (2.4 kg x v) 8.75 kgm/s kgm/s= 2.4 kg x v 4.35 kgm/s = v 2.4kg 1.8 m/s = v In the same direction!

Conservation of Momentum  Practice Problems #5-7 p. 185  Practice Problems #9 -11 p  Go on to the Momentum Worksheet

Momentum