The production of ammonia gas (NH3) can be achieved from the reaction of nitrogen gas (N2) with hydrogen gas (H2). N2 + 3H2 ® 2NH3 The isothermal and isobaric irreversible reaction consisting of 75 mol% H2 with its partial pressure of 9000 kPa and the balance air is carried out in a 30.0 dm3 batch reactor at 475.0 K initially. From a prior study, it is determined that the reaction is first order with respect to N2 and second order with respect to H2. Air consisted of 79 mol% N2 and the balance O2. N2 mt be ed as the basis of calculations. Given the reaction rate constant as 10.0 dm6/mol2.min at 500.0 K and 2.5 dm6/mol2.min at 300.0 K. Construct a stoichiometric table for the above reaction. All values should be in function of conversion, X only by evaluating numerically all other symbols (e.g., ε, θ). Determine the rate of formation of H2 if the conversion of N2 is 70%. e gas constant value of 1.987 cal/mol.K