Question

An object has a mass of `3 kg`. The object's kinetic energy uniformly changes from `48 KJ` to `32KJ` over `t in [0,6s]`. What is the average speed of the object?

Answer 1

The average speed is `=163ms^-1`

Explanation:

The kinetic energy is

`KE=1/2mv^2`

mass is `=3kg`

The initial velocity is `=u_1`

`1/2m u_1^2=48000J`

The final velocity is `=u_2`

`1/2m u_2^2=32000J`

Therefore,

`u_1^2=2/3*48000=32000m^2s^-2`

and,

`u_2^2=2/3*32000=21333.3m^2s^-2`

The graph of `v^2=f(t)` is a straight line

The points are `(0,32000)` and `(6,21333.3)`

The equation of the line is

`v^2-32000=(21333.3-32000)/6t`

`v^2=-1777.8t+32000`

So,

`v=sqrt((-1777.8t+32000)`

We need to calculate the average value of `v` over `t in [0,6]`

`(6-0)bar v=int_0^6sqrt((-1777.8t+32000))dt`

`6 barv=[((-1777.8t+32000)^(3/2)/(-3/2*1777.8)]_0^6`

`=((-1777.8*6+32000)^(3/2)/(-2666.7))-((-1777.8*0+32000)^(3/2)/(-2666.7))`

`=32000^(3/2)/2666.7-21333.3^(3/2)/2666.7`

`=978.1`

So,

`barv=978.1/6=163ms^-1`