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Chapter 4: Q93E (page 225)

How many milliliters of a 0.1500-M solution of KOH will be required to titrate 40.00 mL of a 0.0656-M solution of H3PO4?

\({{\rm{H}}_3}{\rm{P}}{{\rm{O}}_{4({\rm{aq}})}}{\rm{ + 2KO}}{{\rm{H}}_{({\rm{aq}})}}{\rm{ }} \to {\rm{ }}{{\rm{K}}_2}{\rm{HP}}{{\rm{O}}_{4({\rm{aq}})}}{\rm{ + 2}}{{\rm{H}}_2}{{\rm{O}}_{({\rm{l}})}}\)

Short Answer

Expert verified

The volume of potassium hydroxide that will be required to titrate 40.00 ml of a 0.00656 M H3PO4 is 34.98 ml.

Step by step solution

01

Moles of potassium hydroxide

According to the question, it is given that

The concentration of H3PO4 is 0.0656 Mand the given volume is 40.00 ml. Thus, for determining the moles of H3PO4, we can use the relation between volume, concentration, and moles which is given by:

\(\begin{array}{l}{\rm{Moles = Concentration }} \times {\rm{ Volume}}\\{\rm{Moles = 0}}{\rm{.0656 }} \times {\rm{ 40 = 2}}{\rm{.624 g}}\end{array}\)

Now, when 1 mole of \({{\rm{H}}_3}{\rm{P}}{{\rm{O}}_4}\) reacts with potassium hydroxide it requires 2 moles of KOH, thus the number of moles of potassium hydroxide will be:

\({\rm{2 }} \times {\rm{ 2}}{\rm{.624 = 5}}{\rm{.248 moles}}\)

02

volume of potassium hydroxide

As the number of moles of potassium hydroxide is 5.248 and the concentration is 0.1500 M. Thus, the volume of potassium hydroxide will be:

\(\begin{array}{l}{\rm{Volume = }}\frac{{{\rm{Moles}}}}{{{\rm{Concentration}}}}\\{\rm{Volume = }}\frac{{5.248}}{{0.1500}}{\rm{ = 34}}{\rm{.98 mL}}\end{array}\)

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Most popular questions from this chapter

What volume of a 0.00945 M solution of potassium hydroxide would be required to titrate 50.00 mL of a sample of acid rain with a H2SO4 concentration of 1.23×10-4M

\({{\rm{H}}_2}{\rm{S}}{{\rm{O}}_{4({\rm{aq}})}}{\rm{ + 2KO}}{{\rm{H}}_{({\rm{aq}})}}{\rm{ }} \to {\rm{ }}{{\rm{K}}_2}{\rm{S}}{{\rm{O}}_{4({\rm{aq}})}}{\rm{ + 2}}{{\rm{H}}_2}{{\rm{O}}_{{\rm{(l)}}}}\)

Write a balanced molecular equation describing each of the following chemical reactions.

(a) Solid calcium carbonate is heated and decomposes to solid calcium oxide and carbon dioxide gas

(b)Gaseous butane reacts with diatomic oxygen gas to yield gaseous carbon dioxide and water vapor

(c)Aqueous solution of magnesium chloride and sodium hydroxide react to produce solid magnesium hydroxide and aqueous sodium chloride

(d) Water vapor reacts with sodium metal to produce solid sodium hydroxide and hydrogen gas.

In a common medical laboratory determination of the concentration of free chloride ion in blood serum, a serum sample is titrated with a Hg(NO3)2 solution.

2°ä±ô−(aq) + Hg(NO3)2(aq)⟶2±·°¿3−(aq) + HgCl2(s)

What is the Cl− concentration in a 0.25-mL sample of normal serum that requires 1.46 mL of 8.25×10−4MHg(NO3)2(aq) to reach the end point?

Write a balanced equation describing each of the following chemical reactions.

(a) Solid potassium chlorate, KClO3 decomposes to form solid potassium chloride and diatomic oxygen gas

(b) Solid aluminium metal reacts with solid diatomic iodine to form solid Al2I6

(c) When solid sodium chloride is added to aqueous sulfuric acid, hydrogen chloride gas and aqueous sodium sulfate are produced.

(d) Aqueous solutions of phosphoric acid and potassium hydroxide react to produce aqueous potassium dihydrogen phosphate and liquid water.

A novel process for obtaining magnesium from sea water involves several reactions. Write a balanced chemical equation for each step of the process.

(a)The first step is the decomposition of solid calcium carbonate from seashells to form solid calcium oxide and gaseous carbon dioxide.

(b)The second step is the formation of solid calcium hydroxide as the only product from the reaction of the solid calcium oxide with liquid water.

(c)Solid calcium hydroxide is the added to the sea water, reacting with dissolved magnesium chloride to yield solid magnesium hydroxide and aqueous calcium chloride

(d)The solid magnesium hydroxide is added to a hydrochloric acid solution, producing dissolved magnesium chloride and liquid water.

(e)Finally, the magnesium chloride is melted and electrolyzed to yield liquid magnesium metal and diatomic chlorine gas.
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