The reaction occurs according to the following equation:H2SO4 + 2KOH -> 2H20 + K2SO4How do you find the number of moles of H2SO4? Are all parameters needed toanswer the question known? If not, which one should be determined next?#mol of target molecule (H2SO4) = mole ratio of (target / known molecule(KOH)) / #mol of known molecule. The mole ratio is known (1/1), but not the#mol of KOH, which should be determined next.O #mol of target molecule (H2SO4) = mole ratio of (target/ known molecule(KOH)) x #mol of known molecule. The #mol of KOH (2 mol) and its mole ratioare both known.O #mol of target molecule (H2SO4) = mole ratio of (target / known molecule(KOH)) x #mol of known molecule. The mole ratio is known (1/2), but not the#mol of KOH, which should be determined next. What volume of 0.054 M H2S04 is required to react completely with 0.560 g ofKOH?The reaction occurs according to the following equation:H2SO4 + 2KOH -> 2H2O + K2SO424. How do you answer the question in the problem? Are all parameters needed toanswer the question known? If not, which one should be determined next?Ov= M/ #mol. The #mol of the H2SO4 solution is known, but not the molarity,which should be determined next.Ov= #mol / M. The molarity of the H2SO4 solution is known , but not the #mol,which should be determined next.Ov = wt / d. The weight of the KOH solution is known , but not the density, whichshould be determined next

H2SO4 + 2 KOH ➡ 2 H2O +K2SO 1 mole of H2SO4 require 2 mole of KOH to give the product.

Answered: What volume of 0.054 M H2S04 is…

What volume of 0.054 M H2S04 is required to react completely with 0.560 g of KOH? The reaction occurs according to the following equation: H2SO4 + 2KOH -> 2H2O + K2SO4 24. Hou

Introduction to General, Organic and Biochemistry

11th Edition

ISBN:9781285869759

Author:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar Torres

Publisher:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar Torres

Chapter6: Solutions And Colloids

Section: Chapter Questions

Problem 6.109P

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Stoichiometry

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Question

The reaction occurs according to the following equation:
H2SO4 + 2KOH -> 2H20 + K2SO4
How do you find the number of moles of H2SO4? Are all parameters needed to
answer the question known? If not, which one should be determined next?
#mol of target molecule (H2SO4) = mole ratio of (target / known molecule
(KOH)) / #mol of known molecule. The mole ratio is known (1/1), but not the
#mol of KOH, which should be determined next.
O #mol of target molecule (H2SO4) = mole ratio of (target/ known molecule
(KOH)) x #mol of known molecule. The #mol of KOH (2 mol) and its mole ratio
are both known.
O #mol of target molecule (H2SO4) = mole ratio of (target / known molecule
(KOH)) x #mol of known molecule. The mole ratio is known (1/2), but not the
#mol of KOH, which should be determined next.

What volume of 0.054 M H2S04 is required to react completely with 0.560 g of
KOH?
The reaction occurs according to the following equation:
H2SO4 + 2KOH -> 2H2O + K2SO4
24. How do you answer the question in the problem? Are all parameters needed to
answer the question known? If not, which one should be determined next?
Ov= M/ #mol. The #mol of the H2SO4 solution is known, but not the molarity,
which should be determined next.
Ov= #mol / M. The molarity of the H2SO4 solution is known , but not the #mol,
which should be determined next.
Ov = wt / d. The weight of the KOH solution is known , but not the density, which
should be determined next

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