Physical Science
Physical Science
11th Edition
ISBN: 9780077862626
Author: Bill Tillery, Stephanie J. Slater, Timothy F. Slater
Publisher: McGraw-Hill Education
Question
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Chapter 10, Problem 7PEB
To determine

To wite: The balanced chemical equation for each of the following decomposition reaction.

  1. When solid zinc carbonate is heated, solid zinc oxide and carbon dioxide gas are produced.

  2. Liquid hydrogen peroxide decomposes to liquid water and oxygen gas.

  3. Solid ammonium nitrite decomposes into liquid water and ammonia gas.

Expert Solution & Answer
Check Mark

Answer to Problem 7PEB

Solution:

  1. The balanced chemical equation for the reaction is ZnCO3(s)Heat ZnO(s) + CO2

  2. The balanced chemical equation for the reaction is 2H2O2(l)Heat 2H2O(l) + O2

  3. The balanced chemical equation for the reaction is NH4NO2(s)Heat 2H2O(l) + N2

Explanation of Solution

Introduction:

A decomposition reaction, as the term states, is the one in which a single compound is decomposed or broken down into different chemical substances which may be simpler compounds, elements or a combination of both.

A chemical equation is a way of depicting a chemical reaction using chemical symbols and formulae.

A balanced chemical equation is the one in which the number of atoms for each element and the total charge are same on both the sides of the equation. This is done to avoid the violation of the conservation of mass principle.

Generally, the balanced chemical equation also uses certain symbols to describe the physical state of a substance, whether it is a solid, liquid, gas, aqueous solution or a precipitate.

The symbols used to represent different physical states are given in the table below:

Physical State Symbol
Solid (s)
Liquid (l)
Aqueous Solution (aq)
Gas (g) or
Precipitate

Explanation:

(a) Step 1: Write the unbalanced chemical equation for the reaction.

The chemical formulae for each of the substance involved in the reaction are given in the table below:

Name of substance Chemical formula
Zinc Carbonate ZnCO3
Zinc Oxide ZnO
Carbon Dioxide CO2

The chemical equation for the reaction is: ZnCO3Heat ZnO + CO2.

Step 2: Now make an inventory for the number of atoms of each element on both sides of the equation.

Name of element Symbol Number of atoms in reactants Number of atoms in products
Zinc Zn 1 1
Carbon C 1 1
Oxygen O 3 3

Step 3: Balance the number of atoms on each side of the equation by using appropriate coefficients.

In this reaction, from the inventory it is clear that the number of atoms for each of the element are equal on both sides of the equation. Hence, the equation is automatically balanced.

The balanced chemical equation for this reaction is therefore, given as: ZnCO3Heat ZnO + CO2

Step 4: Denote the respective physical states of each of the substances (elements or compounds) involved in the reaction by using appropriate notations for each physical state in the balanced chemical equation.

Generally solids are denoted by (s), liquids by (l), aqueous solutions by (aq), gases by (g) or and precipitates by .

The final balanced chemical equation now therefore becomes:

ZnCO3(s)Heat ZnO(s) + CO2

(b) Step 1: Write the unbalanced chemical equation for the reaction.

The chemical formulae for each of the substance involved in the reaction are given in the table below:

Name of substance Chemical formula
Hydrogen Peroxide H2O2
Water H2O
Oxygen O2

The chemical equation for the reaction is: H2O2Heat H2O + O2.

Step 2: Now make an inventory for the number of atoms of each element on both sides of the equation.

Name of element Symbol Number of atoms in reactants Number of atoms in products
Hydrogen H 2 2
Oxygen O 2 3

In this reaction, from the inventory it is clear that the number of atoms for hydrogen are same on each side but the oxygen atoms are unbalanced.

Step 3: Balance the number of atoms on each side of the equation by using appropriate coefficients. Repeat this until the number of atoms for each element are equal on both sides of the equation.

As seen from the inventory made in Step 2, the number of O atoms are less on the reactants side. Therefore, multiply the reactants side by 2.

Now the equation becomes 2H2O2Heat H2O + O2

Now again check the inventory for each atom for this equation.

Name of element Symbol Number of atoms in reactants Number of atoms in products
Hydrogen H 4 2
Oxygen O 4 3

Now, both the hydrogen and oxygen atoms are lesser on the products side. Therefore, multiply the product H2O by 2. The chemical equation for this reaction now becomes: 2H2O2Heat 2H2O + O2

Now, make another inventory to check if the equation is balanced or not.

Name of element Symbol Number of atoms in reactants Number of atoms in products
Hydrogen H 4 4
Oxygen O 4 4

Now, the number of atoms for each of the elements is same on both sides of the equation.

Hence, the chemical equation is now balanced.

The balanced chemical equation for this reaction is 2H2O2Heat 2H2O + O2.

Step 4: Denote the respective physical states of each of the substances (elements or compounds) involved in the reaction by using appropriate notations for each physical state in the balanced chemical equation.

Generally solids are denoted by (s), liquids by (l), aqueous solutions by (aq), gases by (g) or and precipitates by .

The final balanced chemical equation now therefore becomes:

2H2O2(l)Heat 2H2O(l) + O2.

(c) Step 1: Write the unbalanced chemical equation for the reaction.

The chemical formulae for each of the substance involved in the reaction are given in the table below:

Name of substance Chemical formula
Ammonium Nitrite NH4NO2
Water H2O
Nitrogen N2

The chemical equation for the reaction is: NH4NO2Heat H2O + N2.

Step 2: Now make an inventory for the number of atoms of each element on both sides of the equation.

Name of element Symbol Number of atoms in reactants Number of atoms in products
Nitrogen N 2 2
Hydrogen H 4 2
Oxygen O 2 1

In this reaction, from the inventory it is clear that the number of atoms for nitrogen are balanced but the number of atoms for hydrogen and oxygen are unbalanced.

Step 3: Balance the number of atoms on each side of the equation by using appropriate coefficients. Repeat this until the number of atoms for each element are equal on both sides of the equation.

As seen from the inventory made in Step 2, the number of H atoms are less on the products side. Therefore, multiply the products side by 2.

Now, the equation becomes NH4NO2Heat 2H2O + N2

And now, make another inventory to check if the equation is balanced or not.

Name of element Symbol Number of atoms in reactants Number of atoms in products
Nitrogen N 2 2
Hydrogen H 4 4
Oxygen O 2 2

Now number of atoms for each of the elements is same on both sides of the equation.

Hence, the chemical equation is now balanced.

Hence, the balanced chemical equation for this reaction is NH4NO2Heat 2H2O + N2.

Step 4: Denote the respective physical states of each of the substances (elements or compounds) involved in the reaction by using appropriate notations for each physical state in the balanced chemical equation.

Generally solids are denoted by (s), liquids by (l), aqueous solutions by (aq), gases by (g) or and precipitates by .

The final balanced chemical equation now therefore becomes:

NH4NO2(s)Heat 2H2O(l) + N2.

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Physical Science

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