Find Velocity and Acceleration of A | Dynamics Problem Help

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SUMMARY

The discussion focuses on solving a dynamics problem involving two moving objects, slider A and mass B, connected by a rope over pulleys. Given that mass B moves downward with a constant velocity v_0, the task is to determine the velocity and acceleration of slider A when y_A equals b. The relevant equations include those for rectilinear motion, specifically v = ds/dt and a = dv/dt, along with hints to compute the velocity of A using the total length of the rope and specific conditions.

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I don't know how to begin solving this problem so any suggestions on how to go about solving it would be greatly appreciated.

Homework Statement



The rope connecting slider A and mass B passes over two small pulleys, one of which is attached to A. Mass B has a constant velocity v_0, directed downwards. At the instant when y_A = b, determine: (a) velocity of A, and (b) acceleration of A. The picture of the problem can be found here: http://img8.imageshack.us/img8/2536/68824667.jpg

Homework Equations



The equations that I think I need to use include the ones from rectilinear motion such as v = ds/dt, a = dv/dt.

The Attempt at a Solution



The only thing that I know is that this is a first degree problem because there are two moving objects (A and B) and the rope is the constraint.
 
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L = rope total length, yb = vo*t. Hint: you = [0.25(L - vo*t)^2 - b^2]^0.5.

Now see if you can figure out how to compute va. After you obtain the equation for va, try the following hint. Hint: Arbitrarily let L = 2(2^0.5)*b, and let t = 0.
 

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