Question

A Hollywood stuntman is preparing for a dangerous car stunt. He must drive a car at high speed toward the edge of a cliff and break just before going over the edge. The distance from the car’s starting position to the edge is 100 m. The car’s breaks can manage a maximum deceleration of -8 m/s^2. If the whole movie sequence is going to take 10 seconds, what is the maximum starting velocity that the car can possess if the stuntman is to be successful?

Answer 1

Answer:

Maximum starting velocity that the car can possess if the stuntman is to be successful = 50 m/s

Step-by-step explanation:

We have equation of motion ,
`s= ut+(1)/(2) at^2`, s is the displacement, u is the initial velocity, a is the acceleration and t is the time.

In this case, displacement = 100 meter, acceleration = -8
`m/s^2`, time = 10 seconds, we need to find initial velocity.

Substituting


`100= u*10-(1)/(2) *8*10^2\\ \\ u*10=100+400\\ \\ 10u=500\\ \\ u=50m/s`

So, Maximum starting velocity that the car can possess if the stuntman is to be successful = 50 m/s