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A person hears lounder sound at a point ...

A person hears lounder sound at a point in a stationary wave at

A

Node

B

Antinode

C

Midway between node and antinode

D

Neither node nor the antinode

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The correct Answer is:
A
Ear responds to pressure change and pressure change is maximum at the nodes. A person hears a louder sound at the node as compared to the antinode
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NIKITA PUBLICATION-STATIONARY WAVES -MCQs
  1. When a stationary wave is produced in an isotropic medium

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  2. Stationary waves are called, "stationary" because in it

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  3. A person hears lounder sound at a point in a stationary wave at

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  4. Velocity of sound in air 300m/s. If the distance between the two succe...

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  5. The equation y=4cos((2pix)/(50))sin(100pit) represents a stationary wa...

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  6. A wave of length 2m is superimposed on its reflected wave to form a st...

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  7. The equation of a stationary wave is y=-4sin((pix)/(5)) cos(100pit)....

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  8. The frequency of the progressive wave which form the stationary wave ...

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  9. The velocity of progressive wave which produces the stationary wave, ...

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  10. In a stationary wave of frequency 200 Hz, the distance between a node ...

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  11. Two identical waves each of frequency 10Hz, are travelling in opposite...

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  12. The paritcle displacement (in cm) in a stationary wave is given by y(x...

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  13. The frequency of the above stationary wave is

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  14. Standing waves are produced by the superposition of two waves y(1)...

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  15. The equation of the standing wave is y=0.02 cos((2pix)/(60))sin(150p...

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  16. The maximum velocity of the particle in the above problem at a distanc...

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  17. Two simple harmonic progressive waves is represented by y1=0.01 sin ...

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  18. The amplitude of S.H.M. at antinodes of the problem No. 51 is

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  19. The amplitude of S.H.M. at x=0.05 m is

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  20. The distance between a node the next antinode is

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