Now model the air as an incompressible fluid of constant density 1.02 kg/m that is at rest and has a pressure of 61.8 kPa at h of 101.3 kPa at h=0. What is the speed of the air at the surface? 4200 m altitude, but is moving and has a pressure %3D Express your answer to three significant figures and include appropriate units. ? m 66.7
Now model the air as an incompressible fluid of constant density 1.02 kg/m that is at rest and has a pressure of 61.8 kPa at h of 101.3 kPa at h=0. What is the speed of the air at the surface? 4200 m altitude, but is moving and has a pressure %3D Express your answer to three significant figures and include appropriate units. ? m 66.7
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7
Transcribed Image Text:Thunderstorm Outflow Rain-cooled air near the core of a
thunderstorm sinks and then spreads out in front of the storm
in a forward flank downdraft gust front (Figure 1). These gusts
can vary from a cool breeze to a violent and damaging wind.
Thunderstorms are extremely complex, but modeling air as an
incompressible fluid can offer some insight.
Figure
1 of 1>
Forward flank
downdraft
Storm
movement
Transcribed Image Text:Part C
Now model the air as an incompressible fluid of constant density 1.02 kg/m that is at rest
and has a pressure of 61.8 kPa at h = 4200 m altitude, but is moving and has a pressure
of 101.3 kPa at h=0. What is the speed of the air at the surface?
!!
Express your answer to three significant figures and include appropriate units.
HA
?
66.7
S
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