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In the reaction MgCI2 plus 2KOH MgOH2 plus 2KCI how many moles of MgOH2 are produced for every mole of MgCl2?
The answer is one mole.
How many moles of hydrogen gas could be produced by the complete decomposition of 1 mole of water?
Since a water molecule, H2O, has exactly the same quantity of hydrogen atoms as a hydrogen molecule, H2, it follows that one mole of water can be decomposed into one mole of hydrogen gas.
When using the mole ratio of the reactants and products in a chemical reaction what will you most likely be able to determine?
Using the mole ratio of reactants and products in a chemical reaction allows you to determine the stoichiometry of the reaction. This means you can calculate the relative quantities of reactants and products required for a complete reaction based on the balanced chemical equation.
How many moles of P2 O5 are produced from 8.00 mole of O2?
The balanced equation for the reaction must be given to determine the molar ratio between O2 and P2O5. Without that information, it is not possible to determine the exact number of moles of P2O5 produced from 8.00 moles of O2.
In the reaction mgcl2 plus 2koh mg(oh)2 plus 2kcl How many moles are of mg(oh)2 are produced for every mole of mgcl2?
1
How many moles of H2O are produced for each moles of h2 used?
For every mole of H2 used in a reaction, one mole of H2O is produced, assuming the reaction is the complete combustion of hydrogen gas. This is because the balanced chemical equation for this reaction is: 2H2 + O2 -> 2H2O.
In the reaction MgCI2 plus 2KOH MgOH2 plus 2KCI how many moles of MgOH2 are produced for every mole of MgCl2?
The answer is one mole.
How many moles of hydrogen gas could be produced by the complete decomposition of 1 mole of water?
Since a water molecule, H2O, has exactly the same quantity of hydrogen atoms as a hydrogen molecule, H2, it follows that one mole of water can be decomposed into one mole of hydrogen gas.
What is the mole ratio of C5H12 to H2 in the following reaction?
The mole ratio of C5H12 to H2 in the reaction is 1:8. This means that for every 1 mole of C5H12, 8 moles of H2 are consumed or produced in the reaction.
How many moles of bromine will be formed upon the complete reaction of 0.248 moles bromine trifluoride?
The complete decomposition reaction is as follows:2 BrF3 → Br2 + 3 F2 , so 2 moles BrF3 will give 1 mole Br2 , hence 0.248 mole gives 0.124 mole Br2
What was the heat of reaction per mole of water produced for the neutraliztion reaction?
The heat of reaction per mole of water produced for a neutralization reaction depends on the specific reaction and the reactants involved. It is typically determined experimentally using a calorimeter. The value can vary depending on the specific reaction conditions and the quantities of reactants used.
How many moles of CO are produced when 1.4 moles C reacts?
If 1 mole of carbon reacts, 1 mole of CO is produced according to the balanced chemical equation for the reaction. Therefore, if 1.4 moles of carbon react, 1.4 moles of CO will be produced.
How many moles of hydrogen gas are produced when 0.066 mole of sodium is completely reacted?
The balanced chemical equation for the reaction between sodium and water is: 2Na + 2H2O -> 2NaOH + H2 This means that for every mole of sodium (Na) reacted, one mole of hydrogen gas (H2) is produced. Therefore, when 0.066 mole of sodium is reacted, 0.066 mole of hydrogen gas will be produced.
When using the mole ratio of the reactants and products in a chemical reaction what will you most likely be able to determine?
Using the mole ratio of reactants and products in a chemical reaction allows you to determine the stoichiometry of the reaction. This means you can calculate the relative quantities of reactants and products required for a complete reaction based on the balanced chemical equation.
If 0.440 mole of HgO reacts how many moles of O2 will be produced?
1 mole of HgO produces 1 mole of O2 according to the balanced chemical equation for the reaction. Therefore, 0.440 moles of HgO will produce 0.440 moles of O2.
What is the total number of moles of NO produced when 1.0 mole of O2 is completely consumed?
When 1.0 mole of O2 is completely consumed in the reaction to form NO, 1.0 mole of NO is produced since the balanced equation for the reaction is 2 O2 + 2 N2 -> 2 NO. This means that the mole ratio between O2 and NO is 1:1.
When 0.0100 mole of hno3 and 0.0100 mole of koh react in an open calorimeter 565 j of heat is produced what is the enthalpy of the reaction per mole of hno3?
4.304 x 10^4
