Blocks on Floor - Tension between blocks

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A block system consisting of a 2 kg block (m1) and a 3 kg block (m2) is being pulled with a force of 25 N across a surface with a friction coefficient of 0.3. The calculated acceleration of the blocks is 2.06 m/s². To find the tension in the string between the blocks, the net forces acting on each block must be considered, including friction and the pulling force. After several calculations and clarifications, the tension was determined to be 10 N. The discussion emphasizes the importance of analyzing all forces acting on the blocks to arrive at the correct solution.
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Homework Statement


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 = 25 N. The coefficient of friction of the blocks with the floor is µ = 0.3.

a) What is the acceleration of the two blocks? Answer: 2.06m/s^2


b) What is the tension in the string between the blocks?

Homework Equations



For a) F=ma

For b) F=ma

The Attempt at a Solution



a) m=5 and a=9.8 the answer was 49. I then multiplied 49 by 0.3 to get 14.7N. 14.7N was then subtracted from 25N to get 10.3N. 10.3N was then divided by 5 to get 2.06m/s^2.

b) Each block sould be calculated seperatley. Block m1 is 2kg and block m2 is 5kg. They are being pulled to the right with T (tension) between m1 and m2. Each block has different normal forces, m1=2 and m2=5. I used F=ma: 2(9.8)=19.6N and 5(9.8)=49N.

The front block will have friction, the pulling force, and the tension of the rope acting on it. The back block will only have the tension of the rope and friction. Both will have an acceleration, a.

Any help is much appreciated!
 
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Hi PhysicslyDSBL! :smile:
PhysicslyDSBL said:
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 = 25 N. The coefficient of friction of the blocks with the floor is µ = 0.3.

b) What is the tension in the string between the blocks?

b) … The front block will have friction, the pulling force, and the tension of the rope acting on it. The back block will only have the tension of the rope and friction. Both will have an acceleration, a.

That's right! :smile:

So, using the acceleration from part a), do F = ma (in the horizontal direction) for the back block. :wink:
 
Thanks Tiny Tim!

Maybe I have been staring at physics too long today 'cause I'm sure this is more obvious than it seems to me right now.

So a=2.06, m=2 (the back block) which equals 4.12N. a does not equal 9.8 because this is the horizontal.

It makes sense to me that the above should be the answer but its not. If I am still missing something can someone please fill me in?

Thanks much!
 
PhysicslyDSBL said:
So a=2.06, m=2 (the back block) which equals 4.12N.
This is the net force on the back block. Note that the rope tension is only one of the horizontal forces acting on the block. What's the other?
 
The other force would be the pulling force on both blocks. I am unsure about what to do with this.

My book gives: F-T=m1a and T=m2a

m1 and m2 seem to be backwards in this problem as the rope is connected between m1 and m2 [m2]------[m1]-----

F=force (net force? 4.12)
T=tension
m1 = 2kg
m2 = 3kg

10.3-T=2(2.06)
T=3(2.06)

Substituting, this would equal 0.

Sorry I'm getting so confused
 
Doc Al said:
This is the net force on the back block. Note that the rope tension is only one of the horizontal forces acting on the block. What's the other?
PhysicslyDSBL said:
The other force would be the pulling force on both blocks.

Hi PhysicslyDSBL! :smile:

No … Doc Al :smile: is asking you for the other (horizontal) force on the back block.

In F = ma, F is the net force, so you must find all the horizontal forces, and add them.

Look at the question again, and draw a diagram, with all the forces on it! :wink:
 
Thanks for all the help everyone!

After a few more calculations and substitutions I finally got the answer of 10N.
 

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