A particle moves with constant angular velocity in a circle. During the motion its

Two particles A and B move on a circle Initially, particles A and B are diagonally opposite to each other. Particle A moves with angular velocity pi rad s^-1 and angular acceleration pi//2 rad s^-2 and particle B moves with constant angular velocity 2 pi rad s^-2 . Find the time after which both the particlsd A nad B will collide.

A particle is moving with constant angular velocity along the circumference of a circle. Which of the following statements is true

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

Show that the angular momentum about any point of a single particle moving with constant velocity remains constant throughout the motion.

In fig., the mass m_(2) starts with velocity v_(0) and moves with constant velocity on the surface. During motion, the normal reaction between the horizontal surface and fixed triangle block m_(1) is N . Then during motion.

A particle moves with a constant velocity parallel to the X-axis. Its angular momentum with respect to the origin

When a particle moves with constant velocity its average velocity, its instantaneous velocity and its speed all are equal. Is this statement true or false ?

When a particle moves with constant velocity, its average velocity, its instantaneous velocity and its speed are all equal. Comment on this statement.

A particle is moving with a constant speed in a circular path. Find the ratio of average velocity to its instantaneous velocity when the particle rotates an angle theta =((pi)/(2)) .

Assertion: When a particle moves with constant velocity its average velocity, its insttantaneous velocity and its speed are all equal in magnitude. Reason: If the average velocity of a particle moving on a straight line is zero in a time interval, then it is possible that the instantaneous velocity is never zero in the internal.