A particle moves along a circle of radius R =1m so that its radius vector `vecr` relative to a point on its circumference rotates with the constant angular velocity `omega=2rad//s`. The linear speed of the particle is

A particle 'A' moves along a circle of radius R = 50 cm, so that its radius vetor 'r' relative to the point O rotates with the constant angular velocity omega = 0.4 rad//s . Then :

A particle A moves along a circle of radius R=50cm so that its radius vector r relative to the point O(figure) rotates with the constant angular velocity omega=0.40rad//s . Find the modulus of the velocity of the particle, and the modulus and direction of its total acceleration.

A particle A moves along a circle of radius R=50cm so that its radius vector r relative to the point O(figure) rotates with the constant angular velocity omega=0.40rad//s . Find the modulus of the velocity of the particle, and the modulus and direction of its total acceleration.

A particle A moves along a circle of radius R=50cm so that its radius vector r relative to the point O(figure) rotates with the constant angular velocity omega=0.40rad//s . Find the modulus of the velocity of the particle, and the modulus and direction of its total acceleration.

A particle moves along the circumference of a circle of radius r when its completes one rotation.

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

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

A particle moves along a circle of radius 10 cm . If its linear speed changes from 4m/s to 5 m/s in 1 s, then its angular acceleration will be

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

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