How Is Acceleration Calculated in a Pulley System with Friction?

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The discussion focuses on calculating acceleration in a pulley system with friction, where the coefficient of kinetic friction is 0.40, and the weights of the sliding block and hanging mass are 49N and 78.4N, respectively. The initial calculation incorrectly used the weight of the hanging mass as the force pulling the block, leading to an incorrect net force and acceleration. The correct approach involves setting up separate equations for both the sliding block and the hanging mass using Newton's second law. It was clarified that the tension in the rope, not the weight of the hanging mass, affects the sliding block's motion. Ultimately, the participant found consistent results after revising their calculations based on the correct application of forces.
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Homework Statement



what is the acceleration of the system below? the coefficient of kinetic friction between the block and the table is 0.40. The weigts of the slideing block and hanging mass are 49N and 78.4N respectively.

Homework Equations



Ff=uN

F=ma

Fnet= Fa-Ff

The Attempt at a Solution



I took the 78.4N force as the force pulling the block.

then i found the Ff.

Ff= 0.4 * 49 =19.6

so Fnet = 78.4-19.6 = 58.8N

using F=ma

m= 49/9.8= 5kg

58.8 = 5 * a

a= 58.8/5= 11.76

the actual answer given is 4.5m/s^2

any help to show me where I went wrong would be great. thanks.
 

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Kingrick said:
I took the 78.4N force as the force pulling the block.
The force pulling on the sliding block is the tension in the rope, not the weight of the hanging mass.

Hint: Set up separate equations for each mass using Newton's 2nd law. Then solve them together to find the acceleration.
 
so since its moving T<mg?
 
would T= mg - Ff?

so T= 58.8?
 
Why don't you do what I suggest: Set up one equation for the sliding block (what forces act on it?) and another equation for the hanging mass.
 
thanks i think i got it now, i have some consistent results throughout my worksheet. thanks.
 
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