Newton's Second Law -- Accelerations in a pulley system

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Jonathan Schierl
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Homework Statement


A 20-kg block with a pulley attached slides along a frictionless ledge. It is connected by a massless string to a 5.0-kg block via the arrangement shown in Figure. (a) draw complete free body diagrams for the masses and Find (b) the acceleration of each block and (c) the tension in he connecting string.

Homework Equations


net force= ma
Fweight=ga
Fnormal=Fweight

The Attempt at a Solution


aTension=aTension
Fweight-Ftenison=5a
Ftension=20a
Fweight-20a=5a
ga=25a
 
on Phys.org
Hi Jonathan, Welcome to Physics Forums.

The problem mentions a figure that is absent from your post. Without it it would be difficult to solve the problem or evaluate your solution efforts. Can you post the image? Did you have a particular question about the work you've shown?
 
Jonathan Schierl said:

Homework Statement


A 20-kg block with a pulley attached slides along a frictionless ledge. It is connected by a massless string to a 5.0-kg block via the arrangement shown in Figure. (a) draw complete free body diagrams for the masses and Find (b) the acceleration of each block and (c) the tension in he connecting string.
upload_2017-2-28_10-35-32.png


Homework Equations


net force= ma
Fweight=ga
Fnormal=Fweight

The Attempt at a Solution


aTension=aTension
Fweight-Ftenison=5a
Ftension=20a
Fweight-20a=5a
ga=25a
 
How does the pulley arrangement affect the relative rates of motion of the two blocks (do they both experience the same acceleration)? How does the pulley arrangement affect the net force delivered through string tension to each block?

In other words, does mechanical advantage play a role in this problem? If so, does your current work reflect this?
 
They both experience the same acceleration. The tension pulling both blocks will be the same because the string is massless
 
I don't believe mechanical advantage would play a role in this problem.
 
Jonathan Schierl said:
They both experience the same acceleration. The tension pulling both blocks will be the same because the string is massless
Jonathan Schierl said:
I don't believe mechanical advantage would play a role in this problem.
Better check again! :wink:

Make yourself a sketch of just the block on the horizontal surface's pulley and its string connections. Suppose the pulley moves distance x to the right. How far does the top string have to move to take up the slack created?

upload_2017-2-28_16-4-58.png
 
No it actually doesn't play a role in this problem. We haven't learned that yet.
 
Jonathan Schierl said:
No it actually doesn't play a role in this problem. We haven't learned that yet.
Nevertheless, solving this problem requires that you take into account the relative motions of the two blocks and the sum of tension forces at each block. If the problem requires concepts that you haven't learned yet, you should speak to your instructor.