Finding the Coefficiant of friction

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Homework Help Overview

The discussion revolves around calculating the coefficient of friction for a cart weighing 1.5 kg, which is accelerating on a horizontal surface while being pulled by a weight of 50 grams. Participants are examining the application of Newton's second law and the relationship between forces involved in the scenario.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants are discussing the calculations related to the normal force and the coefficient of friction. There are questions regarding the conversion between units of mass and force, particularly the use of grams versus kilograms.

Discussion Status

The discussion is ongoing, with participants providing guidance on checking calculations and clarifying concepts related to force measurements. There is an acknowledgment of potential errors in the original poster's calculations, but no consensus has been reached on the correct approach yet.

Contextual Notes

There is a noted confusion regarding the units used for normal force and the distinction between mass and force measurements, which may be impacting the calculations presented.

BlakcDahlia
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A cart that weighs 1.5 kg is accelerating at .12 M/s^2 on a horizontal surface. The cart is being pulled by a weight of 50 grams. Find the coefficiant of friction.

I've been using F=ma so 1.5(.12)=.18N

the weight pulling is equal to .05kg(9.8)=.49N

.49-.18=.31N=Ff Ff=m(Fn) .31=m(1500) m (the coefficient of friction)= .0002

I don't feel like this is the right answer, can anyone see what I'm doing wrong?
 
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Check your calculation for the normal force...Where did you get 1500 from?
 
rakbarut said:
Check your calculation for the normal force...Where did you get 1500 from?

I thought in Normal force was measured in grams, not kilograms. That may be where I went wrong. So the proper equation should be .31/1.5=.2? That seems pretty simple and for some reason feel like I've messed up somewhere else but if that's all that I seem to have done wrong then thanks!
 
Again make sure all your calculations are correct...If the Ff = .31 N and the mass of the object is 1.5 kg use the equation µmg=Ff to solve for µ. I think you understand the concepts, just make sure you are doing the algebra correctly...
 
BlakcDahlia said:
I thought in Normal force was measured in grams, not kilograms.
Forces are measured in Newtons. Grams and kilograms are used for mass, not force.
 

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