Block `A` of weight `100N` rests on a frictionless inclined plane of slope angle `30^(@)`(Fig. 5.7). `A` flexible cord attached to `A` passes over a frictonless pulled and is connected to block `B` of weight `W`. Find the weight `W` for which the system in equilibrium.

Block A of weight 100 N rests on a frictionless inclined plane of slope angle 30^(@) . A flexible cord attached to A passes over a frictionless pulley and is connected to block B of weight w. Find the weight w for which the system is in equilibrium

Block A of wiehgt 100 N resta on a frictionless inclined plane of slope angle 30^@. A flexible cod attached to A passes over a frictionless pulley and is connected to block B of weight W. Find the weight W for which the system is in equilibrium.

a. Block A , as shown in figure weight 60.0 N The coefficient of static friction between the block and the surface on which it rest is 0.25 .The system is in equlibrium .Find the friction for excerted on block A b. Find the maximum weight w for which the system will remain in equlibrium

A block of mass 3 kg which is on a smooth inclined plane making an angle of 30° to the horizontal is connected by a cord passing over a light frictionless pulley to a second block of mass 2 kg hanging vertically. What is the acceleration of each block and what is the tension of the cord?

A block of mass 3kg which is on a smooth inclined plane making angie of 30^(@) to the horizontal is connected by cord passing over light frictionless pulley to second block of mass 2kg hanging vertically. What is the acceleration of each block and waht is the tension of the cord ? .