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6 Nov 2019
1.a)Calculate the partial pressure of the hydrogen gas using theatmospheric pressure and the vapor of water at the temperature ofthe solution. Assuming ideal gas behavior, calculate the number ofmoles of hydrogen gas evolved.
b)
- Using the half[reaction equation for the reduction of H+ tohydrogen gas , calculate the number of moles of electrons needed toproduce the amount of hydrogen gas calculated in question1 .
1. a)Calculate the partial pressure of the hydrogen gas using the atmospheric pressure and the vapor of water at the temperature of the solution. Assuming ideal gas behavior, calculate the number of moles of hydrogen gas evolved. b) Using the half[reaction equation for the reduction of H+ to hydrogen gas , calculate the number of moles of electrons needed to produce the amount of hydrogen gas calculated in question1 . Show transcribed image text
1.a)Calculate the partial pressure of the hydrogen gas using theatmospheric pressure and the vapor of water at the temperature ofthe solution. Assuming ideal gas behavior, calculate the number ofmoles of hydrogen gas evolved.
b)
- Using the half[reaction equation for the reduction of H+ tohydrogen gas , calculate the number of moles of electrons needed toproduce the amount of hydrogen gas calculated in question1 .
1. a)Calculate the partial pressure of the hydrogen gas using the atmospheric pressure and the vapor of water at the temperature of the solution. Assuming ideal gas behavior, calculate the number of moles of hydrogen gas evolved. b) Using the half[reaction equation for the reduction of H+ to hydrogen gas , calculate the number of moles of electrons needed to produce the amount of hydrogen gas calculated in question1 .
Show transcribed image text 25 Apr 2023