Sound wave travels from trigger side to the Echo side as shown in figure below. determine the time that consumed by sound wave that travel from trigger to echo and from trigger to target. The distance from trigger to target is equal 40 meter, while the condition space equals 25 °C for dry bulb temperature, and 0.76 of relative humidity of air. The cquation of speed of sound C-331.4+(0.606*Te) +(0.0124*RH) m/s, Tan C. Echo Target D))) Trigger

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Sound wave travels from trigger side to the Echo side as shown in figure below. determine the time that consumed
by sound wave that travel from trigger to echo and from trigger to target. The distance from trigger to target is
equal 40 meter, while the condition space equals 25 °C for dry bulb temperature, and 0.76 of relative humidity
of air. The cquation of speed of sound C-331.4+(0.606*Ta) +(0.0124*RH) m/s, Tan C.
Echo
Target
Trigger)))
Transcribed Image Text:Branch-B Sound wave travels from trigger side to the Echo side as shown in figure below. determine the time that consumed by sound wave that travel from trigger to echo and from trigger to target. The distance from trigger to target is equal 40 meter, while the condition space equals 25 °C for dry bulb temperature, and 0.76 of relative humidity of air. The cquation of speed of sound C-331.4+(0.606*Ta) +(0.0124*RH) m/s, Tan C. Echo Target Trigger)))
Expert Solution
Step 1 To determine,

Time consumed by sound wave that travels from trigger to echo and from trigger to target.

Given,

Speed of sound

C=331.4+0.606*Td+0.0124*RH m/swhere, Td is in C.

Dry bulb temperatureTd=25 oCRelative humidityRD=0.76

Distance between trigger and the target

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