The balanced chemical equation is:2H2 + O2 ---> 2H2OWe are given the amount of the product produced from the reaction. This will be the starting point for the calculations.355 g...Read More

Explanation:Hello.In this case, for the reaction:The correct way to compute the oxygen that reacted is by considering the mass of hydrogen, 58.9 g, its molar mass, 2.02 g/mol, the...Read More

The reaction equation:2H₂ + O₂ → 2H₂OMoles = mass/molecular massThe moles of Hydrogen present:39.7/2 = 19.85 molesThe moles of water present:355/18 = 19.72The moles of water that s...Read More

Explanation:Hello.In this case, for the reaction:The correct way to compute the oxygen that reacted is by considering the mass of hydrogen, 58.9 g, its molar mass, 2.02 g/mol, the...Read More

Explanation:Hello.In this case, for the reaction:The correct way to compute the oxygen that reacted is by considering the mass of hydrogen, 58.9 g, its molar mass, 2.02 g/mol, the...Read More

The reaction equation:2H₂ + O₂ → 2H₂OMoles = mass/molecular massThe moles of Hydrogen present:39.7/2 = 19.85 molesThe moles of water present:355/18 = 19.72The moles of water that s...Read More

The balanced chemical equation is:2H2 + O2 ---> 2H2OWe are given the amount of the product produced from the reaction. This will be the starting point for the calculations.355 g...Read More

Explanation:Hello.In this case, for the reaction:The correct way to compute the oxygen that reacted is by considering the mass of hydrogen, 58.9 g, its molar mass, 2.02 g/mol, the...Read More

Explanation:Hello.In this case, for the reaction:The correct way to compute the oxygen that reacted is by considering the mass of hydrogen, 58.9 g, its molar mass, 2.02 g/mol, the...Read More

The balanced chemical equation is:2H2 + O2 ---> 2H2OWe are given the amount of the product produced from the reaction. This will be the starting point for the calculations.355 g...Read More