A particle executes simple harmonic moti...

A particle executes simple harmonic motion with a frequency. (f). The frequency with which its kinetic energy oscillates is.

A

`f//2`

B

f

C

`2 f`

D

`4 f`

Text Solution

Verified by Experts

The correct Answer is:

C

During one complete oscillation, the kinetic energy will become maximum twice. Therefore, the frequency of kinetic energy will be `2f`.

Topper's Solved these Questions

ARCHIVES 2 VOLUME 6
CENGAGE PHYSICS|Exercise Multiple Correct|22 Videos
ARCHIVES 2 VOLUME 6
CENGAGE PHYSICS|Exercise Comprehension|12 Videos
ARCHIVES 2 VOLUME 6
CENGAGE PHYSICS|Exercise True/False|4 Videos
ARCHIVES 1 VOLUME 6
CENGAGE PHYSICS|Exercise Integer|4 Videos
BASIC MATHEMATICS
CENGAGE PHYSICS|Exercise Exercise 2.6|20 Videos

Similar Questions

Explore conceptually related problems

A particle executes simple harmonic motion with a frequency v. The frequency with which the kinetic energy oscillates is

A particle executes simple harmonic motion with a frequency f. The frequency with which the potential. Energy oscillates is

A particle is executing simple harmonic motion with frequency f . The frequency at which its kinetic energy changes into potential energy is

A particle executing simple harmonic motion with time period T. the time period with which its kinetic energy oscilltes is

A body is executing simple harmonic motion with frequency 'n' the frequency of its potential energy is

While a particle executes linear simple harmonic motion

" The frequency of a particle executing simple harmonic motion is 'f' hertz.The frequency of variation of its kinetic energy is "

A particle of mass m executes simple harmonic motion with amplitude a and frequency v. The average kinetic energy during its motion from the position of equilibrium to the ends is

A particle of mass m executes simple harmonic motion with amplitude a and frequency v. The average kinetic energy during its motion from the position of equilinrium to the end is.

CENGAGE PHYSICS-ARCHIVES 2 VOLUME 6-Single Correct

A travelling wave is described by the equation y = y(0) sin ((ft - (x)...
Text Solution
|
A tube, closed at one end and containing air, produces, when excited, ...
Text Solution
|
A particle executes simple harmonic motion with a frequency. (f). The ...
Text Solution
|
A wave representing by the equation y = a cos(kx - omegat) is suerpose...
Text Solution
|
An organ pipe P(1) open at one end vibrating in its first harmonic and...
Text Solution
|
Two bodies (M) and (N) of equal masses are suspended from two separate...
Text Solution
|
A uniform cylinder of length (L) and mass (M) having cross sectional a...
Text Solution
|
A highly rigid cubical block A of small mass M and side L is fixed rig...
Text Solution
|
The displacement y of a particle executing periodic motion is given by...
Text Solution
|
One end of a long metallic wire of length (L) is tied to the ceiling. ...
Text Solution
|
An object of specific gravity rho is hung from a thin steel wire. The ...
Text Solution
|
The extension in a string, obeying Hooke's law, is x. The speed of sou...
Text Solution
|
An open pipe is suddenly closed at one end with the result that the fr...
Text Solution
|
A whistle giving out 450 H(Z) approaches a stationary observer at a sp...
Text Solution
|
A travelling wave in a stretched string is described by the equation y...
Text Solution
|
A string of length 0.4 m and mass 10^(-2)kg is tightly clamped at its ...
Text Solution
|
A particle of mass (m) is executing oscillations about the origin on t...
Text Solution
|
A particle free to move along the (x - axis) hsd potential energy give...
Text Solution
|
The ratio of the speed of sound in nitrogen gas to that in helium gas,...
Text Solution
|
The period of oscillation of a simple pendulum of length (L) suspended...
Text Solution
|