A small block is connected to one of two identical massless strings of lengtth `16(2)/(3) cm` each with their ends fixed to a verticle rod If the ratio of tensions `T_(1)//T_(2)` is 4 : 1 ,then what will be the angular velocity of the block ? Take `g = 9.8ms^(-2)`

A small block is connected to one end of a massless spring of un - stretched length 4.9 m . The other end of the spring (see the figure) is fixed. The system lies on a horizontal frictionless surface. The block is stretched by 0.2 m and released from rest at t = 0 . It then executes simple harmonic motion with angular frequency (omega) = (pi//3) rad//s . Simultaneously at t = 0 , a small pebble is projected with speed (v) from point (P) at an angle of 45^@ as shown in the figure. Point (P) is at a horizontal distance of 10 m from O . If the pebble hits the block at t = 1 s , the value of (v) is (take g = 10 m//s^2) . .

A small block is connected to one end of a massless spring of un-stretched length 4.9 m. The other end of the spring (see the figure) is fixed. The system lies on a horizontal frictionless surface. The block is stretched by 0.2 m and released from rest at t = 0. It then executes simple harmonic motion with angular frequency omega = (pi)/(3) rad/s . Simultaneously at t = 0, a small pebble is projected with speed nu from point P at an angle of 45^(@) as shown in the figure. Point P is at a horizontal distance of 10 m from O. If the pebble hits the block at t = 1s, the value of nu is (take g = 10 m/ s^(2) )

A pendulum consisting of a small sphere of mass m, suspended by a inextensible and massless string of length 1 , is made to swing in a verticle plane. If the breaking strength of the string is 2 mg, then the maximum angular amplitude of the displacement from the verticle can be

A rod AB of length l = 1m and mass m = 2kg is pinned to a vertical shaft and a massless string is tied with the shaft at the lower end of the rod ( length of the string is ( 4)/( 5) m ) as shown in figure.If the shaft starts rotating with a constant angular velocity omega = 5 rad // sec. Then find the tension in the string.

A rod AB of mass m is hung by two ideal threads. Find the ratio of tensions in the two threads ((T_(1))/(T_(2))) .

If pulley and all strings as shown are massless, then tension T_(2) = 100 N . Calculate weight of the block ( g = 10 m//s^(2))

Two particles each of mass m are moving in horizontal circle with same angular speed. If both string are of same length then the ratio of tension in string (T_(1))/(T_(2)) is

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:

A rod of mass 5 kg is connected to the string at point B. The span of rod is along horizontal. The other end of the rod is hinged at point A. If the string is massless, then the reaction of hinge at the instant when string is cut, is (Take, g=10 ms^(-2) )

In a conical pendulum arrangement, a string of length 1 m is fixed at one end with a bob of mass 100 g and the string makes (2)/(pi) mvs^(-1) around a vertical axis through a fixed point. The angle of inclination of the string with vertical is: (Take g = 10 ms^(-1) )