A pulley-rope-mass arrangement is shown in fig. Find the acceleration of block m_(1) when the masses are set free to move. Assume that the pulley and the ropes are ideal.
Sahay Sir > Question Answers > A pulley-rope-mass arrangement is shown in fig. Find the acceleration of block m_(1) when the masses are set free to move. Assume that the pulley and the ropes are ideal.
Two block A and B of mass M & 3M are connected through a light string. One end of the string is connected to the blcok B and its other end is connected to a fixed point S as shown in fig. Now a force F is applied to block B. find the acceleration of block A & B.
29
Aug
Two block A and B of mass M & 3M are connected through a light string. One end of the string is connected to the blcok B and its other end is connected to a fixed point S as shown in fig. Now a force F is applied to block B. find the acceleration of [...]
In the arrangement shown in the figure, find the tensions in the rope and accelerations of the masses m1 and m2 and pulleys P 1 and P 2 when the system is set free to move. Assume the pulleys to be massless and strings are light and inextensible.
29
Aug
In the arrangement shown in the figure, find the tensions in the rope and accelerations of the masses m1 and m2 and pulleys P 1 and P 2 when the system is set free to move. Assume the pulleys to be massless and strings are light and inextensible. A pulley-rope-mass arrangement is shown [...]
A pulley-rope-mass arrangement is shown in fig. Find the acceleration of block m_(1) when the masses are set free to move. Assume that the pulley and the ropes are ideal.
29
Aug
A pulley-rope-mass arrangement is shown in fig. Find the acceleration of block m_(1) when the masses are set free to move. Assume that the pulley and the ropes are ideal. A pulley-rope-mass arrangement is shown in fig. Find the acceleration of block m_(1) when the masses are set free to move. Assume that the pulley [...]