Question

How much work did the movers do (horizontally) pushing a 46.0-kg crate 10.3 m across a rough floor without acceleration, if the effective coefficient of friction was .50?

Answer 1

`W = 2300` `"J"`

Explanation:

We're asked to find the work done by the movers on a crate as it is moved `10.3` `"m"`.

There are two forces acting on the crate here:

• an applied force from the movers

• a retarding kinetic friction force, `f_k`, equal to `f_k = mu_kn = mu_kmg`

And we're given there is zero acceleration, so the net force is `0`.

The net force equation is thus

`sumF_x = F_"applied" - mu_kmg = 0`

And so

`ul(F_"applied" = mu_kmg`

We know:

• `mu_k =0.50`

• `m = 46.0` `"kg"`

• `g = 9.81` `"m/s"^2`

Plugging these in:

`F_"applied" = 0.50(46.0color(white)(l)"kg")(9.81color(white)(l)"m/s"^2) = color(red)(ul(226color(white)(l)"N"`

The work done by this force is given by

`ul(W = Fs`

We're given the distance `s = 10.3` `"m"`, so we have

`W = (color(red)(226color(white)(l)"N"))(10.3color(white)(l)"m") = color(blue)(ulbar(|stackrel(" ")(" "2300color(white)(l)"J"" ")|)`

rounded to `2` significant figures.