A wave equation which gives the displace...

A wave equation which gives the displacement along the y direction is given by `y=10^(-4)sin(60t+2x)`, where x and y are in meters and t is time in seconds This represents a wave

A

travelling with a velocity of `30 m//s` in the negative `x` direction

B

of wavelength `pi` meter

C

of frequency `30//pi` hertz

D

of amplitude `10^(-4)` meter travelling along the negative `x` direction.

Text Solution

Verified by Experts

The correct Answer is:

A, B, C, D

Promotional Banner

Promotional Banner

Topper's Solved these Questions

WAVE ON STRING
RESONANCE|Exercise Exercise- 2 PART IV|9 Videos
WAVE ON STRING
RESONANCE|Exercise Exercise- 3 PART II|7 Videos
WAVE ON STRING
RESONANCE|Exercise Exercise- 2 PART II|19 Videos
TRAVELLING WAVES
RESONANCE|Exercise Exercise- 3 PART II|7 Videos
WAVE OPTICS
RESONANCE|Exercise Advanced Level Problems|8 Videos

Similar Questions

Explore conceptually related problems

A wave equation which gives the displacement along the y-direction is given by y = 10^(-4) sin(60t + 2x) where x and y are in meters and t is time in secinds. This represents a wave

A wave equation which given the dispplacement along the y-direction is given by , y = 10^(-4)sin (60t +2x) where x and y are in matre and t is time in second. This represents a wave

A wave equation which gives the displacement along the y- direction is given by y=10^(-4)sin[30t-2x] where x & y are in meter & t is time in second.

A wave equation which gives the displacement along the Y direction is given by the equation y=10^4sin(60t+2x) , where x and y are in metres and t is time in seconds. This represents a wave

A wave equation which gives the displacement along y -direction is given by y=0.001 sin (100t +x) where x and y are in meterand t is time in second. This represented a wave

The equation of wave, giving the displacement y is given by y=10^(-3)sin(120t=3x) Where, x and y are in metre and t is in second. This equation represents a wave.

A wave is represented by the equation, y = 0.1 sin (60 t + 2x) , where x and y are in metres and t is in seconds. This represents a wave

The equation of a wave is given by y=a sin (100t-x/10) where x and y are in metre an t in second, the velocity of wave is

A wave is represented by y=0.4cos(8t-(x)/(2)) where x and y are in metres and t in seconds. The frequency of the wave is

RESONANCE-WAVE ON STRING -Exercise- 2 PART III

The plane wave represented by an eqution of the form y = f(x-vt) impli...
Text Solution
|
A wave equation which gives the displacement along the y direction is ...
Text Solution
|
The displacement of a particle in a medium due to a wave travelling in...
Text Solution
|
The displacement of partcles in a string streched in the x-direction i...
Text Solution
|
The particles displacement in a wave is given by y = 0.2 xx 10^(-5) ...
Text Solution
|
A transverse sinusoidal wave of amplitude a, wavelength lambda and fre...
Text Solution
|
If the tension in a string is increased by 21 percent, the fundamental...
Text Solution
|
Two waves of equal frequency f and velocity v travel in opposite direc...
Text Solution
|
Two particles A and B have a phase diference of pi when a sine wave pa...
Text Solution
|
A transverse sinusoidal wave of amplitude a, wavelength lambda and fre...
Text Solution
|
In a stationary wave
Text Solution
|
Following are equations of four waves : (i) y(1) = a sin omega ( t ...
Text Solution
|
A wave disturbance in a medium is described by y(x, t) = 0.02 cos(50pi...
Text Solution
|
The vibrations of a string of length 600cm fixed at both ends are repr...
Text Solution
|
A wave given xi = 10 sin[(80pit - 4pix)] propagates in a wire of lengt...
Text Solution
|