The system shown in the Fig. is in equilibrium. Find the initial acceleration of A, B and C just after the spring 2 is cut.

The system shown in figure is initially in equilibrium. What is the acceleration of B just after the string connecting B to ground is cut ?

The system shown in figure is initially in equilibrium. What is the acceleration of B just after the string connecting B to ground is cut ?

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) .

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) .

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) .

The block shown in figure is in equilibrium cut. Find acceleration of the block just after the string is

The block shown in the figure in is equilibrium. Find acceleration of the block just after the string burns.

The system shown adjacent is in equilibrium. Find the acceleration of the blocks A,B &C all of equal masses m at the instant when (Assume springs to be ideal) (i) The spring between celling & A is cut. (ii) The spring (inextensible) between A&B is cut. (iii) The speing between B & C is cut. Also find the tension in the string when the system is at rest and in the above 3 cases.

The system shown adjacent is in equilibrium. Find the acceleration of the blocks A,B &C all of equal masses m at the instant when (Assume springs to be ideal) (i) The spring between celling & A is cut. (ii) The spring (inextensible) between A&B is cut. (iii) The speing between B & C is cut. Also find the tension in the string when the system is at rest and in the above 3 cases.

The system shown adjacent is in equilibrium. Find the acceleration of the blocks A,B &C all of equal masses m at the instant when (Assume springs to be ideal) (i) The spring between celling & A is cut. (ii) The spring (inextensible) between A&B is cut. (iii) The speing between B & C is cut. Also find the tension in the string when the system is at rest and in the above 3 cases.