A 20.0 kg rock is sliding on a rough , horizontal surface at8.00 m/s and eventually stops due to friction .The coefficient ofkinetic fricction between the rock and the surface i…

Question

asked Aug 4, 2021 12.9k views

1 Answer

Justin Gray · Answer 1 · 2021-08-09T23:44:07+0000

Answer:

Therefore the average thermal power is = 19.61 W

Step-by-step explanation:

Given that the mass of the rock = 20.0 kg

initial velocity (u) = 8.00m/s

Final velocity = 0

Kinetic fiction
$(\mu_k)$ = 0.20.

Friction force = Kinetic fiction× weight

=
$\mu_k mg$

Force = mass × acceleration

$\Rightarrow acceleration =(Force)/(mass)$

$=-(\mu_kmg)/(m)$

$=-\mu_kg$

To find the time , we use the the following formula,

v=u+at

Here a
$=-\mu_kg$

$\Rightarrow 0=8+(-\mu_kg)t$

$\Rightarrow 0.20 * 9.8* t=8$

⇒t = 4.08 s

Now,

Thermal energy= work done by friction = change of kinetic energy

The change of kinetic energy

=
(1)/(2) mu^2-(1)/(2) mv^2

=(1)/(2)* 20* 8 -(1)/(2)* 20* 0

=80 J

Thermal energy=80 J

Thermal power = Thermal energy per unit time

=(80)/(4.08) w

=19.61 W

Therefore 19.61 W average thermal power is produced as the rock stops.