A block of mass `2 kg` is connected with a spring of natural length `40 cm` of force constant `K=200 N//m`. The cofficient of friction is `mu=0.5`. When released from the given position, acceleration of block will be

A smooth block of mass m is connected with a spring of stiffness k(=20Nm^(-1) )and natural length l_(0)=0.25 m . If the block is pulled such that the new length of the spring becomes l=0.3m , find the acceleration of the block at the moment when it is released from given positon.

A 2 kg block is connected with two springs of force constants k_(1)=100 N//m and k_(2)=300 N//m as shown in figure. The block is released from rest with the springs unstretched. The acceleration of the block in its lowest postion is (g=10 m//s^(2))

A block of mass m=5kg is resting on a rough horizontal surface for which the coefficient of friction is 0.2 . When a force F=40N is applied, the acceleration of the block will be (g=10m//s^(2)) .

In the figure shown below , a block of mass 4 kg is attached to a spring constant 24 N/m . The coefficient og friction mu = 0.5 . If the system is initially at rest and a constant horizontal force of 50 N is applied on the block , then calculate its speed when it is moved through a distance of 0.6 m .

The block of mass m is released when the spring was in its natrual length. Spring constant is k. Find the maximum elongation of the spring.

Two blocks are connected by a spring of natural length 2 m. The force constant of spring is 200 N/m. Find spring force in following situations : A is kept at rest and B is displaced by 1 m in right direction.

Block of mass 2 m is given v_(0) towards the right. If L is the natural length of spring constant k , find the maximum elongation of the spring.