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Chapter 4: Problem 95

A Potassium perchlorate is prepared by the following sequence of reactions: \(\mathrm{Cl}_{2}(\mathrm{g})+2 \mathrm{KOH}(\mathrm{aq}) \rightarrow\) $$ \mathrm{KCl}(\mathrm{aq})+\mathrm{KClO}(\mathrm{aq})+\mathrm{H}_{2} \mathrm{O}(\ell) $$ \(3 \mathrm{KClO}(\mathrm{aq}) \rightarrow 2 \mathrm{KCl}(\mathrm{aq})+\mathrm{KClO}_{3}(\mathrm{aq})\) \(4 \mathrm{KClO}_{3}(\mathrm{aq}) \rightarrow 3 \mathrm{KClO}_{4}(\mathrm{aq})+\mathrm{KCl}(\mathrm{aq})\) What mass of \(\mathrm{Cl}_{2}(\mathrm{g})\) is required to produce \(234 \mathrm{kg}\) of \(\mathrm{KClO}_{4} ?\)

Short Answer

Expert verified
You need 87.8 kg of \( \mathrm{Cl}_{2} \).

Step by step solution

01

Write Balanced Chemical Equations

Here are the balanced equations for the reaction steps:1. \( \mathrm{Cl}_{2}(\mathrm{g}) + 2 \mathrm{KOH}(\mathrm{aq}) \rightarrow \mathrm{KCl}(\mathrm{aq}) + \mathrm{KClO}(\mathrm{aq}) + \mathrm{H}_{2}\mathrm{O}(\ell) \)2. \( 3 \mathrm{KClO}(\mathrm{aq}) \rightarrow 2 \mathrm{KCl}(\mathrm{aq}) + \mathrm{KClO}_{3}(\mathrm{aq}) \)3. \( 4 \mathrm{KClO}_{3}(\mathrm{aq}) \rightarrow 3 \mathrm{KClO}_{4}(\mathrm{aq}) + \mathrm{KCl}(\mathrm{aq}) \)

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Balancing Chemical Equations
Balancing chemical equations is a fundamental skill in chemistry that ensures the law of conservation of mass is upheld. This means that the number of atoms of each element is the same on both sides of the equation. When balancing equations, start by listing the number of each type of atom present in the reactants and products. Adjust the coefficients, which are the numbers placed before compounds, to achieve balance.
  • Start with compounds that contain the most atoms.
  • Balance atoms found in only one reactant and one product first.
  • Balance polyatomic ions as a unit if they appear unchanged on both sides.
In the steps of potassium perchlorate synthesis, each equation was systematically balanced to ensure the correct stoichiometry throughout the chemical process.
Stoichiometric Calculations
Stoichiometric calculations involve using the coefficients from balanced chemical equations to determine the relationships between amounts of reactants and products. These calculations allow chemists to predict how much product will form from a given amount of reactant or vice versa.
To perform stoichiometric calculations:
  • Convert the mass of a substance to moles using its molar mass.
  • Use the stoichiometric coefficients to relate the moles of reactants to the moles of products.
  • Convert moles back to mass if needed.
In the case of potassium perchlorate synthesis, calculations begin with the determination of how much chlorine gas (\(\mathrm{Cl}_{2}\)) is needed to produce 234 kg of \(\mathrm{KClO}_{4}\). By converting this mass to moles, and tracing back through each balanced equation, the amount of \(\mathrm{Cl}_{2}\) is found.
Potassium Perchlorate Synthesis
Potassium perchlorate (\(\mathrm{KClO}_{4}\)) synthesis involves a series of reactions that transform chlorine gas (\(\mathrm{Cl}_{2}\)) and potassium hydroxide (\(\mathrm{KOH}\)) into \(\mathrm{KClO}_{4}\).
Each reaction step serves a specific purpose:
  • First, chlorine reacts with potassium hydroxide to form \(\mathrm{KCl}\), \(\mathrm{KClO}\), and \(\mathrm{H}_{2}\mathrm{O}\).
  • Then, several transformations involving different oxychlorides eventually lead to \(\mathrm{KClO}_{4}\).
Through these consecutive transformations, the intermediate compounds, \(\mathrm{KClO}\) and \(\mathrm{KClO}_{3}\), undergo further chemical reactions, yielding the target compound \(\mathrm{KClO}_{4}\). Each step requires precise control over reaction conditions to ensure maximum yield of \(\mathrm{KClO}_{4}\).

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Most popular questions from this chapter

You can dissolve an aluminum soft drink can in an aqueous base such as potassium hydroxide. \(2 \mathrm{Al}(\mathrm{s})+2 \mathrm{KOH}(\mathrm{aq})+6 \mathrm{H}_{2} \mathrm{O}(\ell) \rightarrow\) $$ 2 \mathrm{KAl}(\mathrm{OH})_{4}(\mathrm{aq})+3 \mathrm{H}_{2}(\mathrm{g}) $$ If you place \(2.05 \mathrm{g}\) of aluminum in a beaker with \(185 \mathrm{mL}\) of \(1.35 \mathrm{M} \mathrm{KOH},\) will any aluminum remain? What mass of \(\mathrm{KAl}(\mathrm{OH})_{4}\) is produced?

Aqueous solutions of iron(II) chloride and sodium sulfide react to form iron(11)sulfide and sodium chloride. (a) Write the balanced equation for the reaction. (b) If you combine \(40 .\) g each of \(\mathrm{Na}_{2} \mathrm{S}\) and \(\mathrm{FeCl}_{2}\), what is the limiting reactant? (c) What mass of FeS is produced? (d) What mass of NasS or FeCl, remains after the reaction? (e) What mass of \(\mathrm{FeCl}_{2}\) is required to react completely with \(40 . \mathrm{g}\) of \(\mathrm{Na}_{2} \mathrm{S} ?\)

What mass of \(\mathrm{Na}_{2} \mathrm{CO}_{3},\) in grams, is required for complete reaction with \(50.0 \mathrm{mL}\) of \(0.125 \mathrm{M} \mathrm{HNO}_{3} ?\) \(\mathrm{Na}_{2} \mathrm{CO}_{3}(\mathrm{aq})+2 \mathrm{HNO}_{3}(\mathrm{aq}) \rightarrow\) $$ 2 \mathrm{NaNO}_{3}(\mathrm{aq})+\mathrm{CO}_{2}(\mathrm{g})+\mathrm{H}_{2} \mathrm{O}(\ell) $$

ATOM ECONOMY: Ethylene oxide, \(\mathrm{C}_{2} \mathrm{H}_{4} \mathrm{O},\) is an important industrial chemical las it is the starting place to make such important chemicals as ethylene glycol (antifreeze) and various polymers \(1 .\) One way to make the compound is called the "chlorohydrin route." $$ \mathrm{C}_{2} \mathrm{H}_{4}+\mathrm{Cl}_{2}+\mathrm{Ca}(\mathrm{OH})_{2} \rightarrow \mathrm{C}_{2} \mathrm{H}_{4} \mathrm{O}+\mathrm{CaCl}_{2}+\mathrm{H}_{2} \mathrm{O} $$ Another route is the modern catalytic reaction. $$ \mathrm{C}_{2} \mathrm{H}_{4}+1 / 2 \mathrm{O}_{2} \rightarrow \mathrm{C}_{2} \mathrm{H}_{4} \mathrm{O} $$ (a) Calculate the \(\%\) atom economy for the production of \(\mathrm{C}_{2} \mathrm{H}_{4} \mathrm{O}\) in each of these reactions. Which is the more efficient method? (b) What is the percent yield of \(\mathrm{C}_{2} \mathrm{H}_{4} \mathrm{O}\) if \(867 \mathrm{g}\) of \(\mathrm{C}_{2} \mathrm{H}_{4}\) is used to synthesize \(762 \mathrm{g}\) of the product by the catalytic reaction?

Black smokers are found in the depths of the oceans (page 110 ). Thinking that the conditions in these smokers might be conducive to the formation of organic compounds, two chemists in Germany found the following reaction could occur in similar conditions. $$ 2 \mathrm{CH}_{3} \mathrm{SH}+\mathrm{CO} \rightarrow \mathrm{CH}_{3} \mathrm{COSCH}_{3}+\mathrm{H}_{2} \mathrm{S} $$ If you begin with \(10.0 \mathrm{g}\) of \(\mathrm{CH}_{3} \mathrm{SH}\) and excess \(\mathrm{CO}\) (a) What is the theoretical yield of \(\mathrm{CH}_{3} \mathrm{COSCH}_{3} ?\) (b) If \(8.65 \mathrm{g}\) of \(\mathrm{CH}_{3} \mathrm{COSCH}_{3}\) is isolated, what is its percent yield?
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