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Stoichiometry relates moles of reactant to moles of product, so if you have the amount of reactant in the equation, you can calculate the amount of product produced.
The coefficients give the ratio of moles reactant to moles product.
The amount of product is determined by the limiting reactant. Once one reactant is used completely, no more product can be produced.
The value obtained when an equation is used to calculate the amount of product that will form during a reaction is called THE THEORETICAL YIELD.
In the equation N2+3H2=2NH3, the amount of ammonia produced from 50g of N would be 16.667g.
Stoichiometry relates moles of reactant to moles of product, so if you have the amount of reactant in the equation, you can calculate the amount of product produced.
The theoretical amount of product produced.
The coefficients give the ratio of moles reactant to moles product.
The amount of product is determined by the limiting reactant. Once one reactant is used completely, no more product can be produced.
The value obtained when an equation is used to calculate the amount of product that will form during a reaction is called THE THEORETICAL YIELD.
Variable cost is cost that varies with amount of production. In order to classify this cost, you must be able to decide if the cost can be directly related to the product. If it can, then calculate the total cost then divide it by the number of units produced.
The amount of product which should be produced from a given amount of reactants where one of the reactants is a limiting reagent.
The empty vial is weighed after pouring the sodium chloride out in order to determine the actual amount of product that was produced by the reaction. By taking the full vial and subtracting the empty vial you can calculate the weight of the product.
E = mc^2
(gross domestic product) amount of goods produced per year
In the equation N2+3H2=2NH3, the amount of ammonia produced from 50g of N would be 16.667g.
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