A particle performing uniform circular motion has

A particle performing uniform circular motion gas angular momentum L . If its angular frequency is double and its kinetic energy halved, then the new angular momentum is :

In uniform circular motion

For a particle performing uniform circular motion, choose the incorrect statement form the following.

For a particle performing uniform circular motion, choose the correct statement (s) from the following.

Assertion If a charged particle is pronected in a region, where B is perpendicular to velocity of projection, then the net force acting on the particle is independent orf its mass. Reason The particle is performing uniform circular motion and force acting on it is (mv^(2))/(r) .

In the following questions a statement of assertion (A) is followed by a statement of reason ( R). A : A uniform circular motion have non uniform acceleration . R: The direction of acceleration of a particle in uniform circular motion changes continuously .

A particle is in uniform circular motion, then its velocity is perpendicular to

A particle is moving in a uniform circular motion on a horizontal surface. Particle's position and velocity at time t = 0 are shown in the figure in the coordinate system. Which of the indicated variable on the vertical axis is/are correctly matched by the graph(s) shown alongside for particle's motion ?

A particle is performing circular motion of radius 1 m. Its speed is v=(2t^(2)) m//s . What will be magnitude of its acceleration at t=1s .

A charged particle is rotating in uniform circular motion in a uniform magnetic field . Let r= radius of circule, v= speed of particle k = kinetic energy, a= magnitude of acceleration , p= magnitude of linear momentum, q/m = alpha =specific charge and omega= angular speed. then match the following two columns.