Find speed of the wave generated in the spring as in the sitution shown. Assume that the tension is not affected by the mass of the cord.

The string the spring and the puley shown in figure are light. Find the time period of the mass m.

Find the tension T_(2) in the system shown in fig.

In the figure shown, a spring of spring constant K is fixed at on end and the other end is attached to the mass 'm' . The coefficient of friction between block and the inclined plane is mu . The block is released when the spring is in tis natural length. Assuming that the theta gt mu , the maximum speed of the block during the motion is.

A small mass m and its supporting wire because a simple pendulum when the horizontal cord is cut . Find the ratio of the tension in the supporting wire immediately after the cord is cut to the tension in the wire before the cord is cut

The string, spring and the pulley shown in figure are light. Find the time period of the mass m .

Find the tension T_(2) in the system shown in the figure.

In the shown figure the tension in the horizontal cord is 30N. Find the weight of the body B.

Find the tension in the strings AC and BC shown in figure.

A cord of length 64 m is used to connected a 100 kg astronaut to spaceship whose mass is much larger than that of the astronuat. Estimate the value of the tension in the cord. Assume that the spaceship is orbiting near earth surface. Assume that the spaceship and the astronaut fall on a straight line from the earth centre. the radius of the earth is 6400 km .

The block shown in figure has a mass M and descends with an acceleration a. The mass of the string below the point A is m. Find the tension of the string at the point A and at the lower end.