What is the work done on the block by the worker and weight forces?

ViewtifulBeau · Sep 25, 2005

A 36 kg block of ice slides down a frictionless incline 1.2 m long and 0.48 m high. A worker pushes up against the ice, parallel to the incline, so that the block slides down at constant speed.
(a) Find the magnitude of the force exerted by the worker.
(b) Find the work done on the block by the workers force.
(c) Find the work done on the block by the weight of the block.

I found the answer to (a) by sin(arcsin(.48/1.2)) * 9.81 * 36 kg which is 141.2629.
I don't know what to do for (b) and (c). My first guess would be that (b) is -141.2629 and (c) is 141.2629. But I am not sure.

Poncho · Sep 25, 2005

Work is equal to the change in kinetic energy. If I push on the wall, am I doing work on the wall?

By the way, a) is correcct, but I don't think it's absolutely necessary to take the sin of the arcsin.

lightgrav · Sep 25, 2005

Work done BY a Force is F dot displacement .
You know F_by_worker is up-the-ramp, so does neg. W,
but how far does the block travel along that direction?
[ hint: not exactly 1 meter ! ]

(mg acts along the -.48 m Delta_z, so does +'ve W)

What is the work done on the block by the worker and weight forces?

Related to What is the work done on the block by the worker and weight forces?

1. How does the angle of the incline affect the speed of ice sliding?

2. Is friction a factor in ice sliding on an incline?

3. Can the weight of the ice affect its sliding speed on an incline?

4. How does the surface of the incline affect ice sliding?

5. What other factors can affect the speed of ice sliding on an incline?

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