A chain of mass 'm' and radius 'r' is placed onto a cone of semi vertical angle `theta`. Cone rotated with angular velocity `omega`. Find the tension in the chain if it does not slide on the cone.

A ring of mass m and radius R is being rotated about its axis with constant angular velocity omega in the gravity free space. Find tension in the ring.

A ring of radius 'r' and mass per unit length 'm' rotates with an angular velocity 'omega' in free space then tension will be :

A ring of radius 'r' and mass per unit length 'm' rotates with an angular velocity 'omega' in free space then the tension is :

A chain of mass m forming a circle of radius R is slipped on a smooth round cone with half- angle theta . Find the tension in the chain if it rotates with a constant angular velocity omega about a vertical axis coinciding with the symmetry axis of the cone .

A chain of mass m forming a circle of radius R is slipped on a smooth round cone with half- angle theta . Find the tension in the chain if it rotates with a constant angular velocity omega about a vertical axis coinciding with the symmetry axis of the cone .

A chain of mass m and radius R placed on a smooth table is revolving with a speed v about a vertical axis coinciding with the symmetry axis of the chain. Find the tension in the chain.

A chain of mass m and radius R placed on a smooth table is revolving with a speed v about a vertical axis coinciding with the symmetry axis of the chain. Find the tension in the chain.

point charge q is placed on the top of a cone of semi vertex angle theta .The electric flux through the base of the cone is

Figure-3.54(a) shows a cone of half angle theta on which a chain of mass m is resting with sufficient friction so that it will not slip on the surface of cone. If cone starts rotaring at an angular velocity omega find the tension developed in the chain.