Chemistry, 16.10.2019 16:30 jennyv191

Part a background information; solution already calculate the change in enthalpy (δh) for 1.0 mol of carbon dioxide (co2) initially at a volume of 5.00 l and a temperature of 298 k to a final volume of 10.00 l and a temperature of 373 k. explicitly state all assumptions along with a justification for any and all assumptions made. express your answer in units of kilojoules per mole (kj/mol)

the part i need with;

part b: the enthalpy is a common form of energy used in biochemical thermodynamics and is a state function, meaning the change in enthalpy (δh) for the process above should be independent of the path. explicitly illustrate this point by calculating the change in enthalpy for the expansion process above along a different path than you did in part (a) of this problem

not sure how to calculate along a different path. show work.

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Part a background information; solution already calculate the change in enthalpy (δh) for 1.0 mol...