Block-on-Block attached by String to Block in Pulley on Incline

AI Thread Summary
The discussion revolves around solving a physics problem involving blocks and pulleys on an incline, with one participant seeking validation for their solution of 2.76 kg. Another contributor confirms that the calculation for the maximum acceleration of Block C is correct and suggests that the forces can be analyzed by treating Blocks B and C as a single object since Block C is stationary relative to Block B. Clarifications are provided regarding the calculation of the gravitational force components, emphasizing that the combined mass of both blocks should be considered. The exchange concludes with the original poster expressing satisfaction with the explanations received.
Keena
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Hi all,

The problem is shown below - but no answer was given to this, and the teacher did not plan on taking it up, since it was optional extra practice.

My attempt at a solution: http://imgur.com/DmrgMMO, my final answer was 2.76 kg.

I was wondering if this was right or wrong, and if anyone could show me the proper steps.

Thanks for your time.
 

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Keena said:
Hi all,

The problem is shown below - but no answer was given to this, and the teacher did not plan on taking it up, since it was optional extra practice.

My attempt at a solution: http://imgur.com/DmrgMMO, my final answer was 2.76 kg.

I was wondering if this was right or wrong, and if anyone could show me the proper steps.

Thanks for your time.

attachment.php?attachmentid=67978&d=1395711617.png


Your solution for the maximum acceleration of Block C looks fine.

I haven't gone through the rest of your solution, but with that, it should be pretty straight formard to fin the force necessary to accelerate Block B & C at that value.
...
 
Ah, quick specific question, my calculation for the X component of the Fg for Block B+C, was done by adding up both masses.

But looking at example 3 here: http://www.physicsclassroom.com/class/newtlaws/Lesson-3/Double-Trouble

Should I have just calculated X component for Fg of Block B+C with just the mass of B?
 
Keena said:
Ah, quick specific question, my calculation for the X component of the Fg for Block B+C, was done by adding up both masses.

But looking at example 3 here: http://www.physicsclassroom.com/class/newtlaws/Lesson-3/Double-Trouble

Should I have just calculated X component for Fg of Block B+C with just the mass of B?
Block C is stationary with respect to Block B, so you can threat them as a single object.
 
Thanks very much.

Everything's clear to me now.
 

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