If a 2 kg object moving at 12 m/s slows to a halt after moving 144 m, what is the coefficient of kinetic friction of the surface that the object was moving over?

1 Answer
Jul 2, 2016

\mu_s=0.05

Explanation:

So, given than the object was moving with a speed of 12m/s

We'll use the third kinematic equation to solve this.

The third kinematic equation is
v_f^2=v_o^2+2ax
So, v_o=12m/s and v_f=0m/s, x=144m

So, 0^2=12^2+2*a*144\implies-144=144*2a

Simple cancellation and rearranging gives us -1/2m/s^2=a
It's reasonable to realize why it's negative since the acceleration is decreasing rather than increasing the velocity of the object. But we'll drop the symbol knowing that friction is invariant of direction for further solving.

Now, we know the effective acceleration of the object. We also know that the effective acceleration of an object while travelling over a friction surface is \mu_s*g

So, equating the two, and taking g=10m/s^2, we get \mu_s*10=1/2.

Rearranging gives you what you now see in the answer box.