Calculate the mass of methane that must be burned to provide enough heat to convert 203.0...
Calculate the mass of methane that must be burned to provide enough heat to convert 203.0 g of water at 31.0°C into steam at 116.0°C. (Assume that the H2O produced in the combustion reaction is steam rather than liquid water.)
Homework Answers
We know that,
Enthalpy of combustion of Methane = - 890 kJ / mol
Heat required to convert 203.0 g of water at 31.0°C into steam at 116.0°C = Heat required to raise the temp. of water from 31 C to 100 C + Heat required to convert water to steam at 100 C + Heat required to raise the temp. of steam from 100 C to 116 C
Heat required to raise the temp. of water from 31 C to 100 C = m c (100 - 31) = 203 x 4.18 x 69 = 58549.3 J
Heat required to convert water to steam at 100 C = m L = 203 x 2257 = 458171 J
Heat required to raise the temp. of steam from 100 C to 116 C = m c (116 - 100) = 203 x 2 x 16 = 6496 J
=> Heat required to convert 203.0 g of water at 31.0°C into steam at 116.0°C = 58549.3 + 458171 + 6496 = 523216.3 J = 523.22 kJ
We need 523.22 kJ of Heat
If we burn 1 mole of methan we get 890 kJ of heat
Therefore moles of methane that we need to burn = 523.22 / 890 = 0.588 moles of CH4
=> Mass of Methane that needs to be burnt = 0.588 x 16 = 9.41 g
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