Give the expression for the angular freq...

Give the expression for the angular frequency in terms of force constant and mass of the particle executing SHM.

Text Solution

Verified by Experts

Angular frequency `omega=sqrt((k)/(m))`. Where .k. is force constant and .m. is mass of the particle.

Doubtnut Promotions Banner Desktop Dark

Doubtnut Promotions Banner Mobile Dark

|

Topper's Solved these Questions

OSCILLATIONS
SUBHASH PUBLICATION|Exercise TWO MARKS QUESTIONS WITH ANSWERS|12 Videos
OSCILLATIONS
SUBHASH PUBLICATION|Exercise THREE MARKS QUESTIONS WITH ANSWERS|2 Videos
MOTION IN PLANE
SUBHASH PUBLICATION|Exercise NUMERICALS WITH SOLUTIONS|47 Videos
PHYSICAL WORLD
SUBHASH PUBLICATION|Exercise TWO MARKS QUESTIONS WITH ANSWERS|30 Videos

Similar Questions

Explore conceptually related problems

Give the expression for cyclotron frequency.

Give the expression for a spring force.

Knowledge Check

The total energy of a particle, executing S.H.M. is :

A

`prop X`

B

`prop X^(1//2)`

C

independent of X

D

`prop X^(2)` where X is the displacement from the mean position

Similar Questions

Explore conceptually related problems

Give the expression for angular frequency of a damped oscillator.

Give the expression for energy of photon in terms of eV.

Give the expression for the fundamental frequency in the case of a closed a pipe system

Give the expression for the angular displacement in terms of angular acceleration and time taken.

Give the expression for the moving mass of a photon.

Give the expression for the fundamental frequency in the case of an open pipe system.

Represent KE and PE of a particle executing SHM graphically.

SUBHASH PUBLICATION-OSCILLATIONS-NUMERICALS WITH SOLUTIONS

Give the expression for the angular frequency in terms of force consta...
01:05
|
Calculate total energy of a particle of mass 2.0xx10^(-3)kg oscillatin...
03:05
|
If a mass of 2.0 kg is attached to one end of a spring and the spring ...
03:37
|
Calculate the period of a simple pendulum of length 0.98 m at a place ...
02:23
|
For a damped oscillation of a particle, show that time taken for the a...
04:28
|
Give the expression for frequency of oscillation of a mass body as sho...
Text Solution
|
Calculate the time taken for particele energy to drop to half its init...
03:16
|
The displacement equation of a particle executing S.H.M is given by y...
04:14
|
The acceleration of a particle executing SHM is 0.10 ms^(-2) at a dist...
02:43
|
In a simple pendulum, the displacement of the bob is half of the ampli...
05:09
|
Calculate the time period of a body executing SHM whose displacement i...
06:55
|
If T(1) and T(2) are the time of oscillations for two springs of const...
04:25
|
Two spring of spring constants 10Nm^(-1) and 20 Nm^(-1) are connected ...
03:28
|
A small pole of density 0.75 g/cc and height 5 cm is placed in water s...
02:40
|
Calculate the period of oscillation of a body falling freely inside th...
08:05
|
Show that y=sin^(2)omegat does not represent simple harmonic but perio...
04:46
|
A harmonic osillator is represented by y=0.5cos (1500pi t+0.8) where '...
04:50
|
A harmonic osillator is represented by y=0.5cos (1500pi t+0.8) where '...
02:53
|
A harmonic osillator is represented by y=0.5cos (1500pi t+0.8) where '...
02:03
|
A harmonic osillator is represented by y=0.5cos (1500pi t+0.8) where '...
03:14
|
A harmonic osillator is represented by y=0.5cos (1500pi t+0.8) where '...
04:49
|