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Two ideal gases (Inlet 1: H2 and Inlet 2: O2 ) are mixed in an insulated mixing valve. Assuming no pressure drop in the valve and constant specific heats (evaluated at 300K ) determine the following given the conditions below. --Given Values-- Mass flow rate 1:m_H2(kg/s)=0.2 Mass flow rate 2: m_O2 (kg/s)=0.3 T1K)=300 T2(K)=60 P(kPa)=325 a) Determine the molar flow rate (kmol/s) of H2. Your Answer Correct! Exact Answer= 0.09921+/4.0E04 b) Determine the molar flow rate (kmol/s) of O2. Your Answer = Correct! Exact Answer =0.009375+/3.8E05 c) Determine the mixture molecular weight (kg/kmol). Your Answer = Correct! Exact Answer =4.6048+/1.8E02 d) Determine the constant pressure specific heat (kJ/kgK) of H2 at 300K. Your Answer =14.31 Correct! Exact Answer =14.307+/5.7E02 e) Determine the constant pressure specific heat (kJ/kgK) of O2 at 300K. Your Answer = Correct! Exact Answer =0.918+/3.7E03 f) Determine T3. Your Answer =2i Correct! Exact Answer =278.93+/1.1E+00 g) Determine the rate of entropy production (kW/K) in the valve. Your Answer = Correct! Exact Answer =0.4802+/1.9E03