Find tension in string if `theta = 30^(@)` and the mass hanged in middle of the string is equal to 22 kg.

A simple pendulum having a bob of mass m undergoes smasll oscillastions with amplitude theta_0 Find the tension in the string as a function of the angle made by the string with the vertical. When in this tension maximum, and when is it minimum?

A body of mass M is hanging by an inextensible string of mass m. If the free end of the string accelerates up with constant acceleration a. find the variation of tension in the string a fuction of the distance measured from the mass M (bottom of the string).

A bird with mass m parches at the middle of a strectched string Show that the tension in the string is give by T=(mg)/(2sintheta). Assuming that each half of the string is straight.

A block of mass 2 kg is kept at rest on a smooth inclied plane as shown in (a) with the help of a string Find the tension in the string and reaction on the block if the string is cut, find the acceleration of the block neglecting friction.

A heavy particle hanging from a fixed point by a light inextensible string of length l is projected horizontally with speed (gl) . Then the speed of the particle and the inclination of the string to the vertical at the instant of the motion when the tension in the string equal the weight of the particle-

A string of mass per unit length mu is clamped at both ends such that one end of the string is at x = 0 and the other is at x =l . When string vibrates in fundamental mode, amplitude of the midpoint O of the string is a, tension in a, tension in the string is T and amplitude of vibration is A. Find the total oscillation energy stored in the string.

Two identical small charged spheres, each having a mass m, hang in equilibrium as shown in fig. the ligth of each string is l, and the angle made by any string with the vertical is theta . Find the magnitude of the charge on each sphere.

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.

A small body of mass m is fixed to the middle of a stretched string of length 2l . In the equlibrium position the string tension is equal to T_(0) . Find the angular freqency of small oscillations of the body in the transverse direction. The mass of the string is negligible, the gravitational field is absent.