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For the wave shown in figure, the equati...

For the wave shown in figure, the equation for the wave, travelling along `+x` acis with velocity `350 ms^(-1)` when its position at `t = 0` is as shown

A

`0.05 sin ((314)/(4)x - 27475 t)`

B

`0.05 sin ((379)/(5)x - 27475 t)`

C

`1 sin ((314)/(4)x - 27475 t)`

D

`0.05 sin ((289)/(5)x + 27475 t)`

Text Solution

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The correct Answer is:
A
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Knowledge Check

  • In a string under tension T, the velocity of transverse wave travelling along it is

    A
    `prop T`
    B
    `prop sqrtT`
    C
    `prop T^(2)`
    D
    `prop T^(-1)`

  • In the figure shown the block B moves with , velocity 10 ms^(-1) . The velocity of A in the position shown is

    A
    `12.5 ms^(-1)`
    B
    `25 ms^(-1)`
    C
    `8 ms^(-1)`
    D
    `16 ms^(-1)`

  • in a sine wave ,postive of different particles at time t=0 is shown in figure. The equation for this wave if it is travelling along postive x -axis can beB

    A
    `y= A sin (omegat - kx)`
    B
    `y=A sin (kx- omegat)`
    C
    `y = A cos (omegat- kx)`
    D
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