We know that the final velocity for constantly accelerated motion can be found by multiplying the acceleration times time and adding the result to the initial velocity, vf=vi+at. An car is broug...We know that the final velocity for constantly accelerated motion can be found by multiplying the acceleration times time and adding the result to the initial velocity, vf=vi+at. An car is brought to rest in a distance of 484 m using a constant acceleration of -8.0 m/s 2 . What was the velocity of the car when the acceleration first began?
We know that the final velocity for constantly accelerated motion can be found by multiplying the acceleration times time and adding the result to the initial velocity, vf=vi+at. An car is broug...We know that the final velocity for constantly accelerated motion can be found by multiplying the acceleration times time and adding the result to the initial velocity, vf=vi+at. An car is brought to rest in a distance of 484 m using a constant acceleration of -8.0 m/s 2 . What was the velocity of the car when the acceleration first began?