Thank you for registering.

One of our academic counsellors will contact you within 1 working day.

Please check your email for login details.
MY CART (5)

Use Coupon: CART20 and get 20% off on all online Study Material

ITEM
DETAILS
MRP
DISCOUNT
FINAL PRICE
Total Price: Rs.

There are no items in this cart.
Continue Shopping

Total energy of a particle executing S.H.M. is proportional to (a) Square of the amplitude of the motion (b) Frequency of oscillation (c) Velocity in equilibrium position (d) Displacement form equilibrium position

Total energy of a particle executing S.H.M. is proportional to
(a) Square of the amplitude of the motion
(b) Frequency of oscillation
(c) Velocity in equilibrium position
(d) Displacement form equilibrium position

Grade:Upto college level

2 Answers

Saurabh Koranglekar
askIITians Faculty 10341 Points
one year ago
Dear student

The answer is option d

Regards
Vikas TU
14149 Points
one year ago
At the mean position, the total energy in simple harmonic motion is purely kinetic and at the extreme position, the total energy in simple harmonic motion is purely potential energy. At other positions, kinetic and potential energies are interconvertible and their sum is equal to 1/2 k a2.

Think You Can Provide A Better Answer ?

Provide a better Answer & Earn Cool Goodies See our forum point policy

ASK QUESTION

Get your questions answered by the expert for free