A smooth hemispherical bowl of radius R=0.1 m is rotating about its own axis (which is vertical) with an angular velocity 0. A particle of mass `10^(-2)` kg on the inner surface of the bowl at an angled position `theta` (with vertical) is also rotating with same '`omega`'. The particle is about a height 'h' from the bottom of thebowl.
The value of '`theta`' in temis of 'R' and h' is

A hemispherical bowl of radius R is rotating about its own axis (which is vertical) with an angular velocity omega . A particle on the frictionless inner surface of the bowl is also rotating with the same omega . The particle is a height h from the bottom of the bowl. (i) Obtain the relation between h and omega _________ (ii) Find minimum value of omega needed, in order to have a non-zero value of h _____________ .

A soild cylinder of mass 2 kg and radius 0.2 m is rotating about its owm axis without friction with an angular velocity of 3 rad s^(-1) . Angular momentum of the cylinder is

A solid sphere of radius r and mass m rotates about an axis passing through its centre with angular velocity omega . Its K.E . Is

A cylinder of water, is rotating about its own axis with uniform angular velocity ω. The shape of free surface of water will be

A ring of radius r is rotating about a vertical axis along its diameter with constant angular velocity omega.A read of mass m remains at rest w.r.t. ring at the position shown in figure. Then w^(2) is:

A ring of radius r is rotating about a vertical axis along its diameter with constant angular velocity omega.A read of mass m remains at rest w.r.t. ring at the position shown in figure. Then w^(2) is:

A thin circular ring of mass M and radius R is rotating about its axis with constant angular velocity omega . The objects each of mass m are attached gently to the ring. The wheel now rotates with an angular velocity.

A rod of mass m and length l is rotating about a fixed point in the ceiling with an angular velocity omega as shown in the figure. The rod maintains a constant angle theta with the vertical. What angle will the rod make with the vertical

A wheel of moment of inertial I and radius R is rotating about its axis at an angular speed omega . It picks up a stationary particle of mass m at its edge. Find the new angular speed of the wheel.

A wheel of moment of inertia I and radius R is rotating about its axis at an angular speed omega . It picks up a stationary particle of mass m at its edge. Find the new angular speed of the wheel.