Calculating Work Done Dragging a 20.0kg Suitcase

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To calculate the work done by dragging a 20.0kg suitcase at constant velocity over 15m with a coefficient of kinetic friction of 0.340, the formula W = coefficient of friction * mass * gravity * distance is used. Since the suitcase moves at constant velocity, there is no acceleration, indicating that the force exerted by the passenger equals the frictional force. The discussion clarifies that the forces are balanced, confirming that the net force is zero. This understanding helps in correctly applying the work formula. The calculations align with the principles of physics regarding motion and friction.
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A 20.0kg suitcase is dragged horizontally on a flat floor by a passenger at a constant velocity for 15m. The coefficent of kinetic friction is .340.

What is the work done by the passenger?

I've been trying to do W = FD
F = ma

But it says constant veloctiy, which throws me off. Constant veloocity means no acceleration right? I'm lost. Thanks in advance.
 
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I think I get it actaully. It's werid. I post a question here and even before I get a response things start making sense.

I did, F - frictionForce = ma. Since a = 0, the F = frictionForce.

So, W = coeff of friction * mass * gravity * distance. Would that be correct?
 
askthefool said:
I think I get it actaully. It's werid. I post a question here and even before I get a response things start making sense.

I did, F - frictionForce = ma. Since a = 0, the F = frictionForce.

So, W = coeff of friction * mass * gravity * distance. Would that be correct?

Yep, sounds ok. Constant velocity indeed means no acceleration, which means that there's no resultant force (i.e. the forces balance, as you've done).
 
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