The pressure wave, P=0.01 sin [1000 t-3x...

The pressure wave, `P=0.01 sin [1000 t-3x]Nm^(-2)`, corresponds to the sound produced by a vibrating blade on a day when atmospheric temperature is `0^(@)C`. On some other day when temperature is T, the speed of sound produced by the same blade and at the same frequency is found to be `336 ms^(1)`. Approximate value of T is:

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The pressure wave, P = 0.01 sin[1000t-3x]Nm^(-2) , corresponds to the sound produced by a vibrating blabe on a day when a atmospheric temperature si 0^(@)C . On some other day when temperature is T, the speed of sound produced by the same blade and at the same frequency is found to be 336 ms^(-1) . Approximate value of T is :

It takes 2.0 seconds for a sound wave to travel between two fixed points when the day temperature is 10^(@) C . If the temperature rise to 30 ^(@)C the sound wave travels between the same fixed parts in

It takes 2.0 seconds for a sound wave to travel between two fixed points when the day temperature is 10^@C . If the temperature rises to 30^@C , the sound wave travels between the same fixed parts in

The speed of sound in air at temperature T and pressure p is v. When the temperature is increased to 2T and the pressure is reduced to p /2, then the speed is changed to

On a winter day sound travels 336 meters in one second. Find the atmosphere temperature. Speed of sound at 0^@C=332ms^-1 .

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