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9. Consider the following water and planetary data: Earth Surface temperature: 20 °C Earth surface pressure: 1 atm Boiling po

I know that I have to use the clausius clapeyron equation, but I think I am getting lost in the algebra. So please include the full algebra. Thanks!

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9. a. 288 K or 15 °C, b. 2943.1 kJ

9. Consider the following water and planetary data: Earth Surface temperature: 20 °C Earth surface pressure: 1 atm Boiling point of water on Earth: 100 °C Mars surface temperature: -50 °C Mars surface pressure: 0.015 atm Freezing point of water on Mars: 0 °C a. What is the boiling point of water on the surface of the planet Mars? b. How much heat is required to completely vaporize 1 L of Martian surface water (T= -50 °C)? (HINT Density of water: 1 g/cm1 Csp(Water): 4.184 J/(g °C) Csp(ice): 2.03 J/(g °C) AHfus(water): 6.02 kJ/mol AHvap(water): 44.0 kJ/mol Kw= 1 x 10-14 warm the ice, melt the ice, warm the water, boil the water)
9. a. 288 K or 15 °C, b. 2943.1 kJ
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Answer #1

Yes, you will have to use the Clausius - Clapeyron equation - but in the way shown below:

Following is the - complete Answer -&- Explanation - for the given Question - in...image format...

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