You are in a research & development team responsible for generating preliminary data for the following gas-phase reaction: CO₂(g) + 4H₂ (g) → 2 H₂O (g) + CH.(g) The reaction occurs over a catalyst at a reactor pressure of 1 atm and 500 C and goes essentially to completion. Use the following heat capacities data for your calculation: CO₂ (g): H₂ (g): H₂O (g): CH, (g): Cp = 0.0451 kJ/mol C Cp = 0.0291 kJ/mol C Cp = 0.0358 kJ/mol C Cp=0.0487 kJ/mol C a) Calculate the standard heat of reaction (kJ/mol). (-165.01 kJ/mol) b) If the gases enter and leave the reactor at 1 atm and 500 C, what is the heat of reaction at 500 C (i.e. Ĥ, at 500 C) in kJ/mol. Assume the reactants are fed in stoichiometric amounts. (-184.63 kJ/mol)

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You are in a research & development team responsible for generating preliminary data for the following gas-phase reaction: CO₂(g)+ 4H₂ (g) → 2 H₂O (g) + CH.(g) The reaction occurs over a catalyst at a reactor pressure of 1 atm and 500 C and goes essentially to completion. Use the following heat capacities data for your calculation: CO₂ (g): H₂ (g): H₂O (g): CH₁ (g): Cp=0.0451 kJ/mol C Cp = 0.0291 kJ/mol C Cp = 0.0358 kJ/mol C Cp=0.0487 kJ/mol C a) Calculate the standard heat of reaction (kJ/mol). (-165.01 kJ/mol) b) If the gases enter and leave the reactor at 1 atm and 500 C, what is the heat of reaction at 500 C (i.e. Ê, at 500 C) in kJ/mol. Assume the reactants are fed in stoichiometric amounts. (-184.63 kJ/mol)