A square plate `ABCD` of mass `m` and side `l` is suspended with the help of two ideal strings `P` and `Q` as shown. Determine the acceleration (in `m//s^(2))` of corner `A` of the square just at the moment the string `Q` is cut. `(g = 10 m//s^(2))`.

A mass M is lowered with the help of a string by a distance h at a distance acceleration g//2 . The work done by the string will be

The weights W and 2W are suspended from the ends of a light string passing over a smooth fixed pulley. If the pulley is pulled up with an acceleration of 10 m//s^(2) , the tension in the string will be ( g = 10 m//s^(2))

A 10 kg steel ball is suspended by two strings as shown. The tensions in the two strings are: (g=9.8 m//s^(2) )

A uniform rod of mass m and length l is suspended by means of two light inextensible strings as shown in figure. Tension in one string immediately after the other string is cut is

A uniform rod of mass m length l is attached to smooth hinge at end A and to a string at end B as shown in figure. It is at rest. The angular acceleration of the rod just after the string is cut is :

A square plate of mass 10 kg and side 20 m is moving along the groove with the help of two ideal roller (massless), connected at the corners A and B of the square as shown in the figure. At the given instant of time during motion (as shown in the figure), the corner A is moving with velocity 16 m//s downward. Find the speed of corner D (approximately).

A uniform rod of mass m and length L is suspended with two massless strings as shown in the figure. If the rod is at rest in a horizontal position the ratio of tension in the two strings T_1/T_2 is:

Two blocks A and B of same mass m attached with a light spring are suspended by a string as shown in fig. Find the acceleration of block A and B just after the string is cut.

Two masses of 5 kg and 3 kg are suspended with the help of massless inextensible strings as shown in figure. The whole system is going upwards with an acceleration of 2m s^(-2) . The tensions T_(1) and T(2) are respectively ("Take g"=10ms^(-2))

Two block of mass 2kg are connected by a massless ideal spring of spring contant K=10N//m . The upper block is suspended from roof by a light string A . The system shown is in equilibrium. The string A is now cut, the acceleration of upper block just after the string A is cut will be (g=10m//s^(2) .