Mk said:
I've never gone skydiving, but, if you jump off an airplane, will it be hot or cold, or neither? I was thinking, ram pressure and friction from the air would heat you up, though wind cools you off by carrying away heat... hot or cold?
Maybe doing some number of simple approximation we could fade away your doubts. Let's suppose the skydiver as cylinder shaped of diameter D=30 cm and length L=1.7 m.
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Thermal power absorbed due to friction: according to usual estimations, the friction coefficient is about C\approx 0.3. The thermal power will be approximately:
\dot Q_f \approx 1/2 \rho_{air} \cdot DL \cdot C \cdot U^3
where U is an average speed, let's say: U\approx 100 km/h.
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Thermal power lost due to convection. The external temperature will be at T_{\infty}=-50 ºC as the graph of DaveC426913 suggests at 10 km of altitude.
The Reynolds number of the flow will be:
Re=\frac{UD}{\nu}=\frac{100\cdot 0.3}{35.2\cdot 10^{-6}}=852272 which is fully turbulent. The thermal properties of the air have been obtained from the Standard Atmosphere.
The Prandtl number of the flow will be:
Pr=\frac{\nu}{\alpha}\approx 0.7
According to Incropera ("Heat Transfer Fundamentals" Ed. Prentice Hall), experimental results show that the Nusselt number can be obtained from the next correlation:
Nu_D=\frac{hD}{k}=0.027Re^{0.805} Pr^{1/3}=1425 where h is the convection coefficient and k is the thermal conductivity of the air. So that, we obtain:
h\approx 125 \frac{W} {m^2ºC}
Therefore the thermal power lost by convective effects is:
\dot Q_{c}=\pi D L h (\overline{T}-T_{\infty})
where \overline{T} is an average temperature of the body, let's say 20ºC. So that, let's compare both powers:
\frac{O(friction)}{O(convection)}=\frac{1/2 \rho_{air} \cdot C \cdot U^3}{\pi h 80 }\approx 0.11
What is the conclusion?. After spending the effort, I have realized that's a waste of time
. The fact is that high freefalling velocities such Space Shuttle reentries will enhance a greater heating due to friction. But small velocities like that experimented by an skydiver surely won't heat him up.
I'm not sure. What do you think? :shy:
