The angle between velocity vector and acceleration vector in uniform circular motion is

What is the angle between velocity vector and acceleration vector in unitorm circular motion ?

Velocity vector and acceleration vector in a uniform circular motion are related as

A particle starts travelling on a circle with constant tangential acceleration. The angle between velocity vector and acceleration vector, at the moment when particle completes half the circular track. Is

A particle starts travelling on a circle with constant tangential acceleration. The angle between velocity vector and acceleration vector, at the moment when particle completes half the circular track. Is

Assertion In projectile motion, the angle between instanteneous velocity vector and acceleration vector can be anything between o to pi (excluding the limiting case) Reason In projectile motion, acceleration vector is always pointing vertically downwards. (Neglect air friction.)

Match the following. At a certain moment in time the angle between the velocity vecv of a particle and the acceleration vector a of that particle is 0. Match the type of motion of the particle at this moment for different theta is

A disc of radius R is rolling purely on a flat horizontal, with a Constant angular velocity. The angle between the of velocity and acceleration vectors point P is given by sin^(-1) (sqrt2//n) . What is the value of n ?

Is a body in uniform circular motion in equilibrium ?

A disc of radius R is rolling purely on a flat horizontal surface, with a constant angular velocity. The angle between the velocity and acceleration vectors of point P is .

The velocity and acceleration vectors of a particle undergoing circular motion are v = 2 hat(i) m//s and a = 2 hat(i)+4 hat(j)m//s^(2) respectively at some instant of time. The radius of the circle is