The pressure wave, P = 0.01 sin [1000t - 3x] Nm2, 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 ms1. Approximate value of T is:
The pressure wave, P = 0.01 sin [1000t - 3x] Nm2, 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 ms1. Approximate value of T is:
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![The pressure wave, P = 0.01 sin [1000t – 3x]
Nm2, 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.
Approximate value of T is:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff3aa3d70-ddfe-4507-a580-58a5016d9795%2F5758dbbd-3e61-459a-9a23-92019a4e4360%2F3jnai4e_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The pressure wave, P = 0.01 sin [1000t – 3x]
Nm2, 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.
Approximate value of T is:
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