Newton's Laws - friction, tension, acceleration

AI Thread Summary
The discussion revolves around calculating the acceleration and tension in a system of two blocks being pulled by a force. The blocks have masses of 2 kg and 3 kg, with a friction coefficient of 0.27. Participants suggest setting up equations based on Newton's laws, specifically focusing on the forces acting on each block. After some calculations, one participant arrives at an acceleration of 4.27 m/s² but doubts its correctness. Others advise checking arithmetic and signs in the equations to resolve discrepancies.
buckybadger
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Newton's Laws -- friction, tension, acceleration

A block of mass m1 = 2 kg and a block of mass m2 = 3 kg are tied together and are pulled from rest across the floor by a force of Fp = 24 N. The coefficient of friction of the blocks with the floor is μ = 0.27.

a) What is the acceleration of the two blocks?

b) What is the tension in the string between the blocks? I think that this can be solved by setting up two equations: m1a = T - μm1g

and

m2a = Fp - T - μm2gThe unknowns in those two equations are exactly what I need -- acceleration and tension. Anybody know how to solve this?!
 
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What have you tried so far to solve them? Hint: Try adding them together.
 


Yes, I tried adding the two together by solving for T and plugging that equation into the other. Unfortunately, after crunching the numbers, I did not come to the correct answer.
 


buckybadger said:
Yes, I tried adding the two together by solving for T and plugging that equation into the other. Unfortunately, after crunching the numbers, I did not come to the correct answer.
Show what you did.

(Just add the two equations. What happens to the T terms?)
 


The two equations are:

m1a = T - μm1g

m2a = Fp - T - μm2g

I solved for T as such:

T = m1a + μm1g



Substituting this T value into the second equation, I got:

m2a = Fp - (m1a + μm1g) - μm2g


So,

3a = 24 - (2a + (0.27)(2)(9.8)) - (0.27)(3)(9.8)

Solving for a, I got 5a = 21.35, or a = 4.27 m/s^2. Unfortunately, I do not believe that this is the correct answer.

(Thanks for helping me with this!)
 


buckybadger said:
So,

3a = 24 - (2a + (0.27)(2)(9.8)) - (0.27)(3)(9.8)

Solving for a, I got 5a = 21.35, or a = 4.27 m/s^2. Unfortunately, I do not believe that this is the correct answer.
No, not correct. Your equation is fine, just check your arithmetic. (Careful with parentheses and signs.)
 

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