The driver and driven gases in a shock tube are both air at 300 K. Assume p4/p1 diaphragm is broken, an incident shock wave is propagating into the driven section and an inciden expansion wave is propagating into the driver section. If the strength of the incident shock (p2/p1) is 2.6, a. Calculate the strength of the incident expansion wave (p3/p4). = 8.006. After the b. Calculate the induced mass motion velocity behind the expansion wave.

Elements Of Electromagnetics
7th Edition
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The driver and driven gases in a shock tube are both air at 300 K. Assume p4/p1 = 8.006. After the
diaphragm is broken, an incident shock wave is propagating into the driven section and an incident
expansion wave is propagating into the driver section. If the strength of the incident shock (p2/p1) is 2.6,
a. Calculate the strength of the incident expansion wave (p3/p4).
b. Calculate the induced mass motion velocity behind the expansion wave.
c. Find the propagation velocity of the head expansion wave.
d. Find the propagation velocity of the tail expansion wave.
Transcribed Image Text:The driver and driven gases in a shock tube are both air at 300 K. Assume p4/p1 = 8.006. After the diaphragm is broken, an incident shock wave is propagating into the driven section and an incident expansion wave is propagating into the driver section. If the strength of the incident shock (p2/p1) is 2.6, a. Calculate the strength of the incident expansion wave (p3/p4). b. Calculate the induced mass motion velocity behind the expansion wave. c. Find the propagation velocity of the head expansion wave. d. Find the propagation velocity of the tail expansion wave.
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