Explanation Given info : The temperature of the cold air ( T c ) is − 15 ° C and, for the warm air ( T w ) is + 15 ° C . The incidence angle ( θ i ) is 25 ° . The speed of sound ( v ) as a function of temperature can be approximated by v = ( 331 + 0.60 T ) . Formula used : According to the laws of refraction: sin θ r sin θ i = v 2 v 1 (1) Where, θ r is the angle of refraction θ i is the incident angle v 2 is the speed of P wave in the second medium (cold air) v 1 is the speed of P wave in the first medium (warm air) Isolating θ r from equation (1): θ r = sin − 1 [ ( v 2 v 1 ) sin θ i ] (2) Calculation: The speed of the sound wave in warm air ( v 1 ) is v 1 = ( 333.1 + 0.60 T w a r m ) (3) Replacing data given values into equation (3) v 1 = ( 333

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ISBN: 9780321625922

Author: Douglas C. Giancoli

Publisher: Addison-Wesley

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Shock waves are common in continuum mechanics, and their dominance is attributable to the fact that they are stronger (or even less) compressible. Substantial perturbations propagated as sudden dynamic changes of a compressible medium supersonically. Sho…

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Chapter 11, Problem 59P

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The angle of refraction ( θr ).

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