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A 1.000 kg boulder rolls 75 m down a mountain doing 735,000 J of work. What force was acting on the boulder?​
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A 1.000 kg boulder rolls 75 m down a mountain doing 735,000 J of work.

What force was acting on the boulder?​

User Gorpik
by
5.7k points

1 Answer

3 votes

Answer:

9800 N

Step-by-step explanation:

The work done by the boulder is equal to the product between the force acting on it and the distance covered by the boulder:


W=Fd

where

F is the magnitude of the force

d is the distance covered by the boulder

Here we know

W = 735,000 J is the work done

d = 75 m

Solving the equation for F,


F=(W)/(d)=(735000)/(75)=9800 N

This force is actually equal to the force of gravity acting on the boulder, which is given by:


F=mg

where

m = 1000 kg is the mass of the boulder


g=9.8 m/s^2 is the acceleration of gravity

Substituting,


F=(1000)(9.8)=9800 N

User Rahul Bhardwaj
by
5.6k points
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