A bucket is suspended by two light ropes a and b as shown in fig. 2E.3 (a). Determine the tensions in the ropes a and b.

A block is suspended by two light ropes r_(1) and r_(2) as shown in figure . Then what is the tension the rope r_(2)

A block is suspended by two light ropes r_(1) and r_(2) as shown in figure . Then what is the tension the rope r_(2)

In figure the tension in the rope (rope is light) is

In figure the tension in the rope (rope is light) is

A 20 kg bucket is lowered by a rope with constant velocity of 0.5m/s. What is the tension in the rope? A 20kg bucket is lowered with a constant downward acceleration of 1m//s^(2) . What is the tension in the rope? A 10kg bucket is raised with a constant upward acceleration with same magnitude a.

A mass M is suspended by a rope from a rigid support at A as shown in figure. Another rupe is tied at the end B, and it is pulled horizontally with a force. If the rope AB makes an angle theta with the vertical in equilibrium then the tension in the string AB is

A mass M is suspended by a rope from a rigid support at A as shown in figure. Another rupe is tied at the end B, and it is pulled horizontally with a force. If the rope AB makes an angle theta with the vertical in equilibrium then the tension in the string AB is

A ball of mass m is suspended from a rope of length L. It describes a horizontal circle of radius r with speed v. the rope makes an angle theta with vertical given by sin theta = r//2 . Determine (a) the tension in the rope and (b) the speed of the ball. (c) time period of ball.

A lift is going up, the total mass of the lift and the passengers is 1500kg. The variation in the speed of lift is shown in fig. Then the tension in the rope at t = 1 s will be:

A lift is going up, the total mass of the lift and the passengers is 1500kg. The variation in the speed of lift is shown in fig. Then the tension in the rope at t = 1 s will be: