A two-layer catalytic converter has been designed for diesel engines in automobiles. The first layer in the catalytic converter removes some nitrogen monoxide gas from the exhaust gas and converts it to ammonia gas. In the second layer, ammonia removed as it reacts with the remaining nitrogen monoxide gas. The reactions in the two layers occur at 300°C and are represented by equations I and II. Equation I Equation II 2NO(g) + 3H₂(g) 4NH₂(g) + 6NO(g) catalyst 2NH₂(g) + O₂(g) catalyst +5N₂(g) + 6H₂O(g) ARH = -274.4 kJ ARH-1815.0k) The molar enthalpy of reaction for NH3(g) in the reaction represented by Equation II is + kJ/mol

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A two-layer catalytic converter has been designed for diesel engines in automobiles. The first layer in the catalytic converter removes some nitrogen monoxide gas from the exhaust gas and converts it to ammonia gas. In the second layer, ammonia gas is removed as it reacts with the remaining nitrogen monoxide gas. The reactions in the two layers occur at 300°C and are represented by equations I and II. Equation I Equation II 2NO(g) + 3H₂(g) 4NH₂(g) + 6NO(g) catalyst catalyst 2NH₂(g) + O₂(g) +5N₂(g) + 6H₂O(g) ARH° -274.4 kJ ARH° -1815.0kJ The molar enthalpy of reaction for NH3(g) in the reaction represented by Equation II is Record your 5-digit answer. Include sign; do not include units. kJ/mol