The produced mass of K 2 SO 4 should be calculated. Concept introduction: Mole: Number of atoms present in gram atomic mass of element is known as Avogadro number . Avogadro number is 6.022136 × 10 23 One mole equal of atom equal to Avogadro number ( 6.022136 × 10 23 ) hence, 1 mole of Iron (55 .9 g) contain atom 6.022136 × 10 23 Fe atoms. The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound. Mole = Mass Molar mass
The produced mass of K 2 SO 4 should be calculated. Concept introduction: Mole: Number of atoms present in gram atomic mass of element is known as Avogadro number . Avogadro number is 6.022136 × 10 23 One mole equal of atom equal to Avogadro number ( 6.022136 × 10 23 ) hence, 1 mole of Iron (55 .9 g) contain atom 6.022136 × 10 23 Fe atoms. The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound. Mole = Mass Molar mass
Author: Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell
The molar masses of H2SO4 and K2SO4, mole ratio of reactant require to produce K2SO4 plugged in above equation to give the amount of K2SO4 produced in the reaction.
The produced mass of K2SO444.0g
To calculate the mass of K2SO4 that can be produced respect with 7.7 g of KOH is,
The molar masses of KOH and K2SO4, mole ratio of reactant require to produce K2SO4 are plugged in above equation to give the amount of K2SO4 produced in the reaction.
The produced mass of K2SO412.0g
Form the above calculations, the mass of K2SO4 produced respect with KOH is lower than H2SO4 so KOH is the limiting reagent.
Hence, K2SO4 produced 12.0g
Conclusion
The produced mass of K2SO4 was calculated.
(b)
Interpretation Introduction
Interpretation:
After completion of reaction, the excess mass of H2SO4 should be calculated.
Concept introduction:
Mole:
Number of atoms present in gram atomic mass of element is known as Avogadro number.
Avogadro number is 6.022136×1023
One mole equal of atom equal to Avogadro number (6.022136×1023) hence, 1 mole of Iron (55.9 g) contain atom 6.022136×1023Fe atoms.
The mole of taken gram mass of compound is given by ratio between taken mass of compound to molar mass of compound.
Mole=MassMolarmass
(b)
Expert Solution
Answer to Problem 3.119QP
Excess mass of H2SO4, after completion of reaction is 18g
Explanation of Solution
To determine the excess mass of H2SO4, after completion of reaction.
The given reaction is,
2KOH+H2SO4→K2SO4 + 2H2O
Given,
Mass of H2SO4 is 25 g
Mass of KOH is 7.7 g
To calculate the mass of H2SO4 that react with 7.7 g of KOH is,
The molar masses of H2SO4 and KOH, mole ratio of reactant require to produce KOH plugged in above equation to give the mass of H2SO4 that react with 7.7 g of KOH.
The calculated reacted mass of H2SO4 is subtract from taken mass to give the excess mass of H2SO4, after completion of reaction.
=25g-6.73g=18g
Excess mass of H2SO4, after completion of reaction is 18g
Conclusion
After completion of reaction, the excess mass of H2SO4 was calculated.
(c)
Interpretation Introduction
Interpretation:
The theoretical yield of give reaction should be calculated.
Concept introduction:
Percentage yield:
The percentage ratio between actual yields of the reaction to calculated theoretical yield of the reaction is known as percentage yield.
Percentage yield gives the information about the efficiency of the reaction.
percentage yield =ActualyieldTheoreticalyield×100
(c)
Expert Solution
Answer to Problem 3.119QP
The theoretical yield of the given reaction is 8.0g
Explanation of Solution
To determine the produced mass of K2SO4
The given reaction is,
2KOH+H2SO4→K2SO4 + 2H2O
Given,
Mass of H2SO4 is 25 g
Mass of KOH is 7.7g
To calculate the mass of K2SO4 that can be produced respect with 25 g of H2SO4 is,
The molar masses of H2SO4 and K2SO4, mole ratio of reactant require to produce K2SO4 plugged in above equation to give the amount of K2SO4 produced in the reaction.
The produced mass of K2SO444.0g
To calculate the mass of K2SO4 that can be produced respect with 7.7 g of KOH is,
The molar masses of KOH and K2SO4, mole ratio of reactant require to produce K2SO4 are plugged in above equation to give the amount of K2SO4 produced in the reaction.
The produced mass of K2SO412.0g
Form the above calculations, the mass of K2SO4 produced respect with KOH is lower than H2SO4 so KOH is the limiting reagent.
Hence, K2SO4 produced 12.0g
To calculate the theoretical yield of given reaction.
Given,
Percentage yield is 67.1g
=12g×0.671=8.0g
The theoretical yield of the given reaction is 8.0g
Conclusion
The theoretical yield of the given reaction was calculated.
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