The heat of vaporization of pure nitric oxide (NO) is 13.8 kJ/mol at its boiling point of -152 °C (when pressure is 1 atm). If you add 0.154 moles of a fully soluble, non-dissociating substance to 1000 g of nitric oxide at -152 °C, how much will the temperature at which the solution boils (at 1 atm pressure) increase? You may assume that AHvap of nitric oxide is constant over this temperature range. The molar mass of nitric oxide is 30.01 g/mol. increase in boiling T = °C

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The heat of vaporization of pure nitric oxide (NO) is 13.8 kJ/mol at its boiling point of -152 °C (when pressure is 1 atm).
If you add 0.154 moles of a fully soluble, non-dissociating substance to 1000 g of nitric oxide at -152 °C, how much will the temperature at which the
solution boils (at 1 atm pressure) increase? You may assume that AHvap of nitric oxide is constant over this temperature range. The molar mass of nitric
oxide is 30.01 g/mol.
increase in boiling T =
°C
Transcribed Image Text:The heat of vaporization of pure nitric oxide (NO) is 13.8 kJ/mol at its boiling point of -152 °C (when pressure is 1 atm). If you add 0.154 moles of a fully soluble, non-dissociating substance to 1000 g of nitric oxide at -152 °C, how much will the temperature at which the solution boils (at 1 atm pressure) increase? You may assume that AHvap of nitric oxide is constant over this temperature range. The molar mass of nitric oxide is 30.01 g/mol. increase in boiling T = °C
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