Two blocks hang vertically from an ideal string which passes over two pulleys as shown. The mass are m, and mb = 3m. Mass a starts on the ground and mass b is initially at height H. Find the speed of the masses when ma is at H and mp is just about to hit the ground. This is the Work-Kinetic Energy homework set. Solve the problem with the methods of Work-Kinetic Energy thinking for full credit. (No kinematics or potential energy allowed. Do not solve for the acceleration or use the acceleration in your solution.) Your answer may be in term of H, m, and g. PULLEYS my 3ma %3D ma

Two blocks hang vertically from an ideal string which passes over two pulleys as shown. The mass are m, and mb = 3m. Mass a starts on the ground and mass b is initially at height H. Find the speed of the masses when ma is at H and mp is just about to hit the ground. This is the Work-Kinetic Energy homework set. Solve the problem with the methods of Work-Kinetic Energy thinking for full credit. (No kinematics or potential energy allowed. Do not solve for the acceleration or use the acceleration in your solution.) Your answer may be in term of H, m, and g. PULLEYS my 3ma %3D ma

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Can someone explain it to me ASAP?!!!!

Two blocks hang vertically from an ideal string which passes over two pulleys as shown. The mass are m, and mb = 3m,. Mass a starts an
the ground and mass b is initially at height H. Find the speed of the masses when ma is at H and mp is just about to hit the ground.
This is the Work-Kinetic Energy homework set. Solve the problem with the methods of Work-Kinetic Energy thinking for full credit. (No kinematics or
potential energy allowed. Do not solve for the acceleration or use the acceleration in your solution.) Your answer may be in term of H, m, and g.
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