Three balls each of mass 1 kg are attached with three strings each of length 1 m as shown in figure. They are rotated in a horizontal circle with angular velocity `omega=4"rad s"^(-1)` about point O. Match the following columns.

In the figure, a ball of mass m is tied with two strings of equal as shown. If the rod is rotated with angular velocity omega_(1) when

A bob of mass m attached to an inextensible string of length l, is suspended from a vertical support. Bob rotates in a horizontal circle with angular speed omega and string makes an angle of theta with the vertical. Find the angular momentum of bob about axis of rotation

A particle of mass m is whirled in horizontal circle with the help of two threads of length l each as shown in figure . Angular velocity equals omega , then

A small ball of mass m suspended from the celling at a point O by a thread of length l moves along a horizontal circle with a constant angular velocity omega . .

Two particles, each of mass m are attached to the two ends of a light string of length l which passes through a hole at the centre of a table. One particle describes a circle on the table with angular velocity omega_(1) and the other describes a circle as a conical pendulum with angular velocity omega_(2) below the table as shown in figure -3.86. if l_(1) and l_(2) are the lengths of the portion of the string above and below the table then :

Three small balls each of mass 100 gm are attached at distance of 1 m, 2 m and 3 m from end D of a 3 m length of string. The string is rotated with uniform angular velocity in a horizontal plane about D. If the outside ball is moving at a speed of 6 m/s, the ratio of tension in the three parts of the string from inside-

A mass m is attached to a rigid rod of negligible mass as shown in figure. The system is pivoted at point O and rotates about the indicated z -axis with angular velocity vec(omega) , maintaining a fixed angle theta with the axis.