3 blocks on a frictionless surface

AI Thread Summary
The problem involves three blocks on a frictionless surface, with a total force of 13.8 N applied to the first block. To find the force exerted by the 2.16 kg block on the 2.87 kg block, one must first calculate the acceleration of the system using Fnet=ma. After determining the acceleration, a Free Body Diagram (FBD) should be used to isolate the 2.87 kg block and apply Newton's laws to find the force exerted on it. The discussion highlights the importance of correctly identifying forces and understanding net force versus individual forces between the blocks. Clarifying these concepts is essential for solving the problem accurately.
talaroue
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Homework Statement



Blocks with masses of 0.54 kg, 2.16 kg, and 2.87 kg are lined up in a row on a frictionless table. All three are pushed forward by a 13.8 N force applied to the 1 kg block. How much force does the 2.16 kg block exert on the 2.87 kg block?



Homework Equations



Fnet=ma

The Attempt at a Solution


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I thought all I had to do was calculate the acceleration and then multiply by the mass of the second block?
 
There is a second part of the problem that I got right...
How much force does the 2.16 kg block exert on the 0.54 kg block?
I found the acceleration which is 13.8/5.57=2.48 m/s^2 then i took that and mutliplied it by .54 kg that gave me N then I subtracted that N from the orginal 13.8...but it doesn't work for the first part why?
 
talaroue said:
Blocks with masses of 0.54 kg, 2.16 kg, and 2.87 kg are lined up in a row on a frictionless table. All three are pushed forward by a 13.8 N force applied to the 1 kg block. How much force does the 2.16 kg block exert on the 2.87 kg block?

I thought all I had to do was calculate the acceleration and then multiply by the mass of the second block?
No, this will give you the net force acting on the 2nd block, not the force of block 2 on block 3. Instead, once you calculate the acceleration, you must draw a Free Body Diagram (FBD) which isolates the last (2.87 kg) block, identify the forces acting on that block, and apply Newton's laws to that block to solve for the force of block 2 on block 3.

talaroue said:
There is a second part of the problem that I got right...
How much force does the 2.16 kg block exert on the 0.54 kg block?
I found the acceleration which is 13.8/5.57=2.48 m/s^2
Correct.
then i took that and mutliplied it by .54 kg that gave me N
no it didn't, it gave you the net force acting on block 1
then I subtracted that N from the orginal 13.8...but it doesn't work for the first part why?
you mean you subtracted the net force from the 13.8 to get the force of block 2 on block 1.
 
Yeah I meant I subtracted the net force from 13.8. I got the first one but not the second one...hmmmm i think I will meet with my professor and ask him what i should have done. thank you guys for your help.
 

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