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Why concept of limiting reactant is not applicable to reversible reaction. justify?
The concept of limiting reactant is primarily applicable to irreversible reactions, where reactants are entirely consumed to form products. In reversible reactions, both reactants and products can interconvert, meaning that the reaction can shift back to form reactants even after some have been consumed. As a result, there is no definitive limiting reactant, as the amounts of reactants and products can vary dynamically, maintaining a state of equilibrium rather than complete consumption.
How is theoretical yield related to the limiting reactant?
Theoretical yield is the maximum amount of product that can be formed from a given amount of reactants, assuming complete conversion and no losses. The limiting reactant is the reactant that is completely consumed first in a chemical reaction, thus determining the maximum amount of product that can be produced. Therefore, the theoretical yield is directly related to the limiting reactant; it is calculated based on the quantity of the limiting reactant available in the reaction. If the limiting reactant is fully utilized, the theoretical yield can be achieved.
1. When 200.2g of sulfur reacts with 100.3g of chlorine to produce disulfur dichloride acts as the limiting reactant?
The limiting reactant is chlorine.
Why is the term limiting used to describe the limiting reactant?
The term "limiting" is used to describe the reactant that is completely consumed in a chemical reaction, thus limiting the amount of product that can be formed. It determines the maximum amount of product that can be produced based on its stoichiometry and quantity.
Why does it make good business sense to have an expensive reactant be the limiting reactant in the production of a specific problem?
The limiting reactant, by definition, will be completely converted to the desired product. If one reactant is substantially more expensive than the other reactant(s), it is monetarily sensible to make the most expensive reactant the limiting one, so that the total material cost per unit of product will be minimized.
Why concept of limiting reactant is not applied to reversable reactant?
Concept of limiting reactant is not applicable to the reversible reactions because in these reactions all the reactants are converted into products and no reactants remain at the end of the reaction.
Why concept of limiting reactant is not applied to reversible reaction?
Concept of limiting reactant is not applicable to the reversible reactions because in these reactions all the reactants are converted into products and no reactants remain at the end of the reaction.
Why concept of limiting reactant is not applicable to reversible reaction. justify?
The concept of limiting reactant is primarily applicable to irreversible reactions, where reactants are entirely consumed to form products. In reversible reactions, both reactants and products can interconvert, meaning that the reaction can shift back to form reactants even after some have been consumed. As a result, there is no definitive limiting reactant, as the amounts of reactants and products can vary dynamically, maintaining a state of equilibrium rather than complete consumption.
What is the reactant called that gets used up first?
The Limiting Reactant is the reactant that runs out first in a reaction.
What is the limiting reactant in alka-seltzer?
Sodium bicarbonate is the limiting reactant.
Why is the theoretical yield of a reaction determined only by the amount of the limiting reactant?
The theoretical yield of a reaction is determined by the limiting reactant because this reactant is completely consumed in the reaction, and the amount of product that can be formed is limited by the amount of the limiting reactant available. Any excess of the other reactant does not contribute to the formation of additional product beyond what is possible with the limiting reactant.
What is the limiting reactant when 3.14g of nitrogen react with 2.79g of hydrogen to produce ammonia and how many grams of ammonia are produce?
To determine the limiting reactant, we need to find the moles of each reactant. Then, we calculate the amount of ammonia that can be produced from each reactant. Whichever reactant produces the least amount of ammonia is the limiting reactant. Finally, we calculate the grams of ammonia produced based on the limiting reactant.
What reactant gives the lowest yield by limiting the amount of product?
A reactant that gives the lowest yield by limiting the amount of product is called a limiting reactant. The limiting reactant will run out, so that only a limited amount of product can be made from the reactants.
What is the reactant that runs first out in a reaction called?
The Limiting Reactant is the reactant that runs out first in a reaction.
What is the definetions of limiting reactant in chemistery?
In a chemical reaction the limiting reactant is the reactant that there is the least of in the reaction; it determines the amount of product formed. In a chemical reaction it is the reactant that gets completely "used up"
Which is the limiting reactant when masses of reactants are same?
You must first convert the mass of each reactant into moles of each reactant. Having the same mass does not mean that the amount of each reactant is the same, because each reactant has its own unique molar mass. Refer to the related link below for instructions on determining limiting reactants, also called limiting reagents.
Why does the amount of product formed is directly proportional to the amount of limiting reactant used?
The amount of product formed is directly proportional to the amount of limiting reactant used because the limiting reactant determines the maximum amount of product that can be produced in a chemical reaction. Any excess reactant beyond the limiting reactant will not contribute to the formation of additional product. Thus, the amount of product formed is dictated by the amount of limiting reactant available.
