If the differential equation given by (d...

If the differential equation given by `(d^(2)y)/(dt^(2))+2k(dy)/(dt)+omega^(2)y=F_(0)sin pi t` describes the oscillatory motion of body in a dissipative medium under the influence of a periodic force, then the state of maximum amplitude of the oscillation is a measure of

A

free vibration

B

damped vibration

C

forced vibration

D

resonance

Text Solution

Verified by Experts

The correct Answer is:

D

Here, the state of maximum amplitude of the oscillation is a measure of resonance.

Promotional Banner

Promotional Banner

Topper's Solved these Questions

OSCILLATIONS
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise EXERCISE 2|49 Videos
OSCILLATIONS
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MHT CET CORNER|29 Videos
OSCILLATIONS
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MHT CET CORNER|29 Videos
MOCK TEST 5
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise MCQs|42 Videos
PRACTICE SET 01
MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS|Exercise PAPER 1 (PHYSICS & CHEMISTRY)|50 Videos

Similar Questions

Explore conceptually related problems

Order and degree of the differential equation (d^(2)y)/(dx^(2))+2(dy)/(dx) + sin y = 0 are

Order and degree of the differential equation (d^(2)x)/(dt^(2))+((dx)/(dt))^(2)+7=0 respectively are

The equation (d^2y)/(dt^2)+b(dy)/(dt)+omega^2y=0 represents the equation of motion for a

If y is displacement and t is time, unit of (d^(2)y)/(dt^(2)) will be

The solution of differential equation t = 1 + (ty)(dy)/(dt) + (ty)^2/(2!) ((dy)/(dt))^(2)+ . . . . oo is

If y=A sin(omega t-kx), then the value of (d^(2)y)/(dt^(2))/(d^(2)y)/(dx^(2))

The displacement equation of a particle of medium during wave mation is given by y=A sin omega t-B cos omega t The amplitude of the oscillator will be

The differential equation of a particle performing a S.H.M. is (d^(2)x)/(dt^(2))+ 64x=0 . The period of oscillation of the particle is

The order and degree of the differential equation ((d^2s)/(dt^2))^2 + 3 ("ds"/"dt")^2+ 4 =0 are

MHTCET PREVIOUS YEAR PAPERS AND PRACTICE PAPERS-OSCILLATIONS-EXERCISE 1

If the length of second's pendulum is decreased by 2%, how many second...
Text Solution
|
Two simple pendulum of length 5m and 20m respectively are given small ...
Text Solution
|
A and B are fixed points and the mass M is tied by strings at A and B....
Text Solution
|
Two simple pendulum first of bob mass M(1) and length L(1) second of b...
Text Solution
|
The mass and diameter of a planet are twice those of earth. What will ...
Text Solution
|
A clock pendulum made of invar has a period of 0.5sec at 20^(@)C. If t...
Text Solution
|
The time period of a simple pendulum in a stationary train is T. The t...
Text Solution
|
In case of a simple pendulum, time period versus length is depicted by
Text Solution
|
A simple spring has length l and force constant K. It is cut into two ...
Text Solution
|
A particle of mass 200 g executes a simpel harmonit motion. The resrto...
Text Solution
|
A massless spring, having force constant k, oscillates with frequency ...
Text Solution
|
An object suspended from a spring exhibits oscillations of period T. N...
Text Solution
|
If k(s) and k(p), respectively are effective spring constants in serie...
Text Solution
|
If f is the frequency when mass m is attached to a spring of spring co...
Text Solution
|
Frequency of oscillation is proportional to
Text Solution
|
In the figure, S(1) and S(2) are identical springs. The oscillation fr...
Text Solution
|
A clock S is based on oscillations of a spring and clock P is based on...
Text Solution
|
In case of a forced vibration, the resonance wave becomes very sharp w...
Text Solution
|
The amplitude of damped oscillator becomes 1/3 in 2s. Its amplitude af...
Text Solution
|
If the differential equation given by (d^(2)y)/(dt^(2))+2k(dy)/(dt)+om...
Text Solution
|