Asked by Jennifer
Hello,
I am kind stuck on this question
In the lab you discover a relationship between the temperature of the air and the speed of sound. You find the speed of sound is never lower than 331 m/s and increases by 60% of the current temperature.
a. What is the equation from this relationship?
b. If the temperature is 300 C, what is the speed of sound?
c. If the speed of sound is 391 m/s, what must be the temperature?
I am kind stuck on this question
In the lab you discover a relationship between the temperature of the air and the speed of sound. You find the speed of sound is never lower than 331 m/s and increases by 60% of the current temperature.
a. What is the equation from this relationship?
b. If the temperature is 300 C, what is the speed of sound?
c. If the speed of sound is 391 m/s, what must be the temperature?
Answers
Answered by
Steve
s = 331 + .6t
s(300) = 331 + .6(300) = 331 + 180 = 511
391 = 331 + .6t
60 = .6t
100 = t
s(300) = 331 + .6(300) = 331 + 180 = 511
391 = 331 + .6t
60 = .6t
100 = t
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