Thermochemical equations are chemical equations that clearly show the relationship between mass of products and reactants and enthalpy changes. For example CH4 (g) + 202 (g) → CO2 (g) + 2H2O (1) AH = - 890.4 kJ moles of CH4 = - 890.4 kJ moles of O2 = - 890.4 kJ moles of CO2 = - 890.4 kJ moles of H20 = - 890.4 kJ - 890.4 kJ - 890.4 kJ mol - 890.4 kJ mol - 890.4 kJ mol mol Determine the heat produced in the above reaction when 1.6 grams of methane is burned in excess oxygen. Show your work! Determine the heat produced in the above reaction when 3.8 grams of oxygen is burned in excess methane. Show your work! Determine the heat produced in the above reaction when 5.2 grams of carbon dioxide is produced. Show your work! Determine the heat produced in the above reaction when 2.6 grams of water is produced. Show your work! Does the amount of heat released or absorbed depend on the mass of substance present? What is your evidence?

Please help me answer the last two question with x

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Thermochemical equations are chemical equations that clearly show the relationship between mass of products and reactants and enthalpy changes. For example CH4 (g) + 202 (g) → CO2 (g) + 2H2O (1) AH = - 890.4 kJ moles of CH4 = - 890.4 kJ moles of O2 = - 890.4 kJ moles of CO2 = - 890.4 kJ moles of H20 = - 890.4 kJ - 890.4 kJ mol - 890.4 kJ mol - 890.4 kJ mol - 890.4 kJ mol Determine the heat produced in the above reaction when 1.6 grams of methane is burned in excess oxygen. Show your work! Determine the heat produced in the above reaction when 3.8 grams of oxygen is burned in excess methane. Show your work! Determine the heat produced in the above reaction when 5.2 grams of carbon dioxide is produced. Show your work! Determine the heat produced in the above reaction when 2.6 grams of water is produced. Show your work! Does the amount of heat released or absorbed depend on the mass of substance present? What is your evidence?