Question

An electric toy car with a mass of `7 kg` is powered by a motor with a voltage of `2 V` and a current supply of `2 A`. How long will it take for the toy car to accelerate from rest to `1 m/s`?

Answer 1

`0.875 "s"`

Explanation:

The power input is the product of the voltage and the current.

`P = IV`

`= (2 "V") * (2 "A")`

`= 4 "W"`

The change in kinetic energy for the car is

`Delta "KE" = 1/2 m (v^2 - v_0^2)`

`= 1/2 (7 "kg") ((1 "m/s")^2 - (0 "m/s")^2)`

`= 3.5 "J"`

Thus, the time needed is the energy divided by the power.

`t = frac{Delta "KE"}{P}`

`= frac{3.5 "J"}{4 "W"}`

`= 0.875 "s"`