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What is phase difference between velocity and acceleration in SHM?

What is phase difference between velocity and acceleration in SHM?

This implies that Velocity is 90∘(0.5π) out phase with the displacement and the acceleration is 90∘(0.5π) out phase with the velocity but 180∘(π) out of phase with displacement.

What is the relation between velocity and acceleration in SHM?

Velocity and Acceleration in Simple Harmonic Motion. A motion is said to be accelerated when its velocity keeps changing. But in simple harmonic motion, the particle performs the same motion again and again over a period of time.

What is the phase relationship between velocity and acceleration?

Answer Expert Verified. So velocity is π/2 radians ahead of displacement in the phase angle. So acceleration is π radians ahead of displacement and π/2 rad ahead of velocity.

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What is phase difference between velocity and displacement in SHM?

Displacement in SHM is given by x = A sin( wt) where A is amplitude, w is angular velocity, t is instantaneous time. Phase difference between sin and cos function is 90 degrees or pi/2 radians . Hence phase difference between displacement and velocity is 90 degrees or pi/2 radians.

What is the phase difference between the displacement and velocity?

We know that the velocity of a particle is the rate of change of displacement with respect to time. Therefore, the phase difference between displacement and velocity is $\dfrac{\pi }{2}$.

When we compare the equation of displacement and velocity at any instant the phase difference between the displacement and the velocity is?

Phase different between displacement and velocity is π2 rad.

What is the phase difference between displacement and acceleration for a particle executing SHM?

The phase difference between two particles executing SHM of the same amplitudes and frequency along same straight line while passing one another when going in opposite directions with equal displacement from their respective starting point is 2π/3.