Electronics and inhabitants of the International Space Station generate a significant amount of thermal energy that the station must get rid of. The only way that the station can exhaust thermal energy is by radiation, which it does using thin, 1.7 m-by-3.8 m panels that have a working temperature of about 6° C. How much power is radiated from each panel? Assume that the panels are in the shade so that the absorbed radiation will be negligible. Assume that the emissivity of the panels is 1.0. Express your answer with the appropriate units. ► View Available Hint(s) P= ΜΑ Value Units ?

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Electronics and inhabitants of the International
Space Station generate a significant amount of
thermal energy that the station must get rid of. The
only way that the station can exhaust thermal
energy is by radiation, which it does using thin,
1.7 m -by-3.8 m panels that have a working
temperature of about 6° C.
How much power is radiated from each panel? Assume that the panels are in the shade so that the absorbed
radiation will be negligible. Assume that the emissivity of the panels is 1.0.
Express your answer with the appropriate units.
► View Available Hint(s)
P =
μA
Value
Units
?
Transcribed Image Text:Electronics and inhabitants of the International Space Station generate a significant amount of thermal energy that the station must get rid of. The only way that the station can exhaust thermal energy is by radiation, which it does using thin, 1.7 m -by-3.8 m panels that have a working temperature of about 6° C. How much power is radiated from each panel? Assume that the panels are in the shade so that the absorbed radiation will be negligible. Assume that the emissivity of the panels is 1.0. Express your answer with the appropriate units. ► View Available Hint(s) P = μA Value Units ?
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