A source is moving on a circle of radius 3m with constant angular velocity `omega = 5 rad s^(-1)`. If the observer is at a distnace 5 cm from the centre of the circle, the time interval between the maximum and minimum frequency recived by the observer is

A particle moves in a circle of radius 4 m with a linear velocity of 20ms^(-1) . Find the angular velocity.

A source of sound and detector are arranged as shown in Fig. The detector is moving along a circle with constant angular speed omega . It start from the shown location in anticlockwise direction at t=0 (Take velocity of sound in air as v) Find the time interval between minimum and maximum frequency as received by the detector.

An alpha is moving along a circle of radius R with a constant angular velocity omega . Point A lies in the same plane at a distance 2R from the centre. Point A records magnetic field produced by the alpha -particle. If the minimum time interval between two successive time at which A records zero magnetic field is t, the angular speed omega , in terms of t, is

A particle moves in a circle with constant angular velocity omega about a point P on its circumference. The angular velocity of the particle about the centre C of the circle is

A particle is moving along a circle of radius 20cm , with a linear velocity of 2m//s. Calculate the angular velocity of the particle.

A particle is moving along a circle of radius 20cm , with a linear velocity of 2m//s. Calculate the angular velocity of the particle.

A particle is revolving in a circle of radius r and centre at 'O' with uniform angular velocity omega . Choose the correct option(s) :

A stone of mass M tied at the end of a string, is moving in a circular of radius R, with a constant angular velocity omega . The work done on the stone, in any half circle I s

A article moves in a circle of radius 20 cm with linear speed of 10 m/s. Find the angular velocity

A particle moves along a circle of radius R with a constant angular speed omega . Its displacement (only magnitude) in time t will be