Impulse

states that the impulse done on a system is equal to the change in momentum of that system

in equation form this looks like $J=\Delta p$   

 $\Delta p=p_f-p_{i_{ }}$  

combine the two equations to get $J=p_f-p_i$  

knowing that  $J=F\times t$  , you can go one step further and say  $F\times t=p_f-p_i$  

There are now TWO ways to find impulse

1. Force x time

2. change in momentum (final minus initial)

This also means that you can set these two equations equal to each other to say that

Force x time = final momentum - initial momentum

This is exactly like the Work-Energy Theorem from last unit

Doing Work added Energy to a system

Replace the word "Work" with 'Impulse"

Replace the word "Energy" with "Momentum"

Doing Impulse adds Momentum to a system

Safety devices in cars use the Momentum-Impulse Theorem to keep you safe in the event of a crash.

Example: You (100 kg) go from 30 m/s to 0

Your change in momentum is (0 x 100 - 30 x 100) = -3000 kg * m/s

This will be true regardless of safety features on your car. Your impulse is fixed.

What CAN change are the components of impulse (force and time)

They still must multiply to equal -3000

by increasing the time of impact, you decrease the force

force is the thing that hurts you so decreasing it lowers your chances of being hurt during an impact

EGG DEMO