Blocks A B. and C are placed as in the figure below and connected by ropes of negligible mass. Both A and B have masses equal to 1.0 kg and the coefficient of friction between each block and the surface is 0.35 initially block C descends at a constant acceleration of 0.5 If the angle of the incline is 25 degrees 1. Find the tension in the rope connecting blocks A and B 2. Find the mass of block C 3. Find the normal force on block B 4. Find the acceleration of Cif the cord between A and B was cut Use g 9.81

Blocks A B. and C are placed as in the figure below and connected by ropes of negligible mass. Both A and B have masses equal to 1.0 kg and the coefficient of friction between each block and the surface is 0.35 initially block C descends at a constant acceleration of 0.5 If the angle of the incline is 25 degrees 1. Find the tension in the rope connecting blocks A and B 2. Find the mass of block C 3. Find the normal force on block B 4. Find the acceleration of Cif the cord between A and B was cut Use g 9.81

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Blocks A B. and C are placed as in the figure below and connected by ropes of negligible mass. Both A and B have masses equal to 1.0 kg and the coefficient of friction between each block and the surface is 0.35. Initially, block C descends at a constant acceleration of 0.5
If the angle of the incline is 25 degrees
1. Find the tension in the rope connecting blocks A and B
2. Find the mass o
of block C
3. Find the normal force on block B
4. Find the acceleration of C if the cord between A and B was cut
Use g = 9.81

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