Assuming that the escape speed of Mars is 4.17 km/s, what is the log10 of the number of molecules in one mole of (160)2 that will reach Mars' escape velocity? Round your answer to the nearest hundredth (i.e. if your final answer is 3.576, round it to 3.58). Take the average Mars Air Temperature to be T=224K. Take Avogadro's Constant as 6.022x1023 and the Ideal Gas Constant R=8.31 J/mol*K.
Assuming that the escape speed of Mars is 4.17 km/s, what is the log10 of the number of molecules in one mole of (160)2 that will reach Mars' escape velocity? Round your answer to the nearest hundredth (i.e. if your final answer is 3.576, round it to 3.58). Take the average Mars Air Temperature to be T=224K. Take Avogadro's Constant as 6.022x1023 and the Ideal Gas Constant R=8.31 J/mol*K.
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Transcribed Image Text:Assuming that the escape speed of Mars is 4.17 km/s, what is the log10 of the
number of molecules in one mole of (160)2 that will reach Mars' escape velocity?
Round your answer to the nearest hundredth (i.e. if your final answer is 3.576, round
it to 3.58). Take the average Mars Air Temperature to be T=224K. Take Avogadro's
Constant as 6.022x1023 and the Ideal Gas Constant R=8.31 J/mol*K.
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