Equation of a standing wave is generally...

Equation of a standing wave is generally expressed as `y=2Asinomegatcoskx`. In the equation quantity `(omega)/(k)` represents

A

the transverse speed of the particles of the string.

B

the speed of the component waves.

C

the speed of the standing wave.

D

a quantity that is independent of the properties of the string.

Text Solution

Verified by Experts

The correct Answer is:

B

Promotional Banner

Promotional Banner

Topper's Solved these Questions

WAVE ON STRING
RESONANCE ENGLISH|Exercise Exercise- 2 PART II|19 Videos
WAVE ON STRING
RESONANCE ENGLISH|Exercise Exercise- 2 PART III|15 Videos
WAVE ON STRING
RESONANCE ENGLISH|Exercise Exercise- 1 PART II|31 Videos
TRAVELLING WAVES
RESONANCE ENGLISH|Exercise Exercise- 3 PART I|19 Videos
WAVE OPTICS
RESONANCE ENGLISH|Exercise Advanced Level Problems|8 Videos

Similar Questions

Explore conceptually related problems

In the Schrodinger's wave equation Psi represents

The equation of a light wave is written as y=Asin(kx-omegat) . Here y represents

The oscillations represented by curve 1 in the graph are expressed by equation x=Asinomegat. The equation for the oscillation represented by curve 2 is expressed as

Rate of a reaction can be expressed by Arrhenius equation as: k = Ae^(-E_(a)//RT) In this equation, E_(a) represents:

In a stationary wave represented by y=4sin(omega t) cos(kx) cm, the amplitude of the component progressive wave is

Solve the equation by using the general expression for roots of a quadratic equation: x^2+2=0

The displacement of a progressive wave is represented by y=Asin(omegat-kx) where x is distance and t is time. The dimensions of (omega)/(k) are same as those of

Solve the equation by using the general expression for roots of a quadratic equation: x^2+3=0

In a wave motion y = asin (kx - omega t),y can represent :-

The equation, 2x^2+ 3y^2-8x-18y+35= K represents

RESONANCE ENGLISH-WAVE ON STRING -Exercise- 2 PART I

Graph shows three waves that are separately sent along a string that i...
Text Solution
|
A transverse periodic wave ona strin with a linear mass density of 0.2...
Text Solution
|
A heavy but unifrom rope of length L is suspended from a celling . A p...
Text Solution
|
An object of specific gravity rho is hung from a thin steel wire. The ...
Text Solution
|
A circular loop of rope of length L rotates with uniform angular veloc...
Text Solution
|
A circular loop of rope of length L rotates with uniform angular veloc...
Text Solution
|
A circular loop of rope of length L rotates with uniform angular veloc...
Text Solution
|
which of the following function corrtly represent the traveling wave e...
Text Solution
|
A 75 cm string fixed at both ends produces resonant frequencies 384 Hz...
Text Solution
|
Two identical harmonic pulses travelling in opposite directions in a t...
Text Solution
|
Figure shows a rectangular pulse and triangular pulse approaching towa...
Text Solution
|
When a wave pulse travelling in a string is reflected from rigid wall ...
Text Solution
|
A wave travels on a light string. The equation of the waves is y= A si...
Text Solution
|
The equation of stationary wave along a stretched string is given by y...
Text Solution
|
Equation of a standing wave is generally expressed as y=2Asinomegatcos...
Text Solution
|
A sonometer wire is divided in many segments using bridges. If fundame...
Text Solution
|
A string of length L, fixed at its both ends is vibrating in its 1^(st...
Text Solution
|
A stone is hung in air from a wire which is stretched over a sonometer...
Text Solution
|
A wire of density 9gm//cm^(3) is stretched between two clamps 1.00m ap...
Text Solution
|
A 20 cm long rubber string fixed at both ends obeys Hook's law. Intial...
Text Solution
|