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Chapter 2: Problem 61

Predict the chemical formula for the ionic compound formed by (a) \(\mathrm{Ca}^{2+}\) and \(\mathrm{Br}^{-},(\mathbf{b}) \mathrm{K}^{+}\) and \(\mathrm{CO}_{3}^{2-},(\mathbf{c}) \mathrm{Al}^{3+}\) and \(\mathrm{CH}_{3} \mathrm{COO}^{-},(\mathbf{d}) \mathrm{NH}_{4}^{+}\) and \(\mathrm{SO}_{4}^{2-},(\mathbf{e}) \mathrm{Mg}^{2+}\) and \(\mathrm{PO}_{4}^{3-}\) .

Short Answer

Expert verified
The chemical formulas for the ionic compounds formed are: (a) CaBr2, (b) K2CO3, (c) Al(CH3COO)3, (d) (NH4)2SO4, and (e) Mg3(PO4)2.

Step by step solution

01

(a) Ca2+ and Br-

For a net zero charge, simply balance the charges of the ions involved in the compound. In this case, one Ca2+ ion has a charge of +2, and one Br- ion has a charge of -1. Therefore, we would need two Br- ions to balance one Ca2+ ion. Chemical formula: CaBr2
02

(b) K+ and CO3 2-

In this case, one K+ ion has a charge of +1, and one CO3 2- ion has a charge of -2. Therefore, we would need two K+ ions to balance one CO3 2- ion. Chemical formula: K2CO3
03

(c) Al3+ and CH3COO-

In this case, one Al3+ ion has a charge of +3, and one CH3COO- ion has a charge of -1. Therefore, we would need three CH3COO- ions to balance one Al3+ ion. Chemical formula: Al(CH3COO)3
04

(d) NH4+ and SO4 2-

In this case, one NH4+ ion has a charge of +1, and one SO4 2- ion has a charge of -2. Therefore, we would need two NH4+ ions to balance one SO4 2- ion. Chemical formula: (NH4)2SO4
05

(e) Mg2+ and PO4 3-

In this case, one Mg2+ ion has a charge of +2, and one PO4 3- ion has a charge of -3. Therefore, we would need three Mg2+ ions to balance two PO4 3- ions. Chemical formula: Mg3(PO4)2

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Key Concepts

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

Ionic Compounds
Ionic compounds are formed when positive and negative ions come together to create a neutral compound. This happens through the transfer of electrons between atoms.
These compounds are typically composed of metals and non-metals. When the metal loses electrons, it becomes a cation with a positive charge. The non-metal gains these electrons, turning it into an anion with a negative charge.
  • Ionic bonds are strong due to the electrostatic attraction between oppositely charged ions.
  • They often form crystalline solids with high melting points.
  • Examples in this exercise include compounds like CaBr e/2/, formed from calcium and bromide ions.
Understanding ionic compounds is crucial for predicting the formulas of compounds created by different ions.
Balancing Charges
Balancing charges is essential to achieve a neutral ionic compound. Every compound must have a net charge of zero, meaning all positive charges must equal all negative charges.

For example, if you have a cation with a charge of +2 and an anion with a charge of -1, you will need two of the anions to balance one of the cations.
  • Example: For CaBr e/2/, calcium has a +2 charge, and bromide has a -1 charge. Therefore, two bromide ions are needed per calcium ion.
  • In correction with KCO e/3/ vs2, potassium has a +1 charge and carbonate has a -2 charge, requiring two potassium ions for each carbonate.
Balancing charges ensures the stability and neutrality of ionic compounds.
Cation and Anion Pairing
Cation and anion pairing involves the combination of positively charged and negatively charged ions. The cation, usually a metal, pairs up with an anion, often a non-metal or polyatomic ion.
This pairing is driven by the difference in charges, allowing them to "stick" together in a stable configuration.
  • In pairs like Al(CH e/3/COO) e/3/, one aluminum cation pairs with three acetate anions.
  • For compounds like (NH e/4/) e/2/SO e/4/, two ammonium cations balance one sulfate anion.
Understanding how cations and anions pair is key to determining the correct chemical formula of an ionic compound.
Ion Charge
An ion charge is the electrical charge an ion carries, which can be either positive or negative.
The charge is a result of losing or gaining electrons. Metals usually lose electrons to become positively charged cations, while non-metals gain electrons to become negatively charged anions.
  • Charges are crucial for predicting how ions will combine. For instance, Mg e/2/+ has a +2 charge, and PO e/4/) vs3- carries a -3 charge.
  • These charges determine how many of each ion are needed to balance and form a neutral compound.
By knowing the charges of ions, you can predict the number and ratio of ions required to create ionic compounds.

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Most popular questions from this chapter

For each of the following elements, write its chemical symbol, determine the name of the group to which it belongs (Table \(2.3 ),\) and indicate whether it is a metal, metalloid, or nonmetal: (a) potassium, (b) iodine, (c) magnesium, (d) argon, (e) sulfur.

The natural abundance of \(^{3} \mathrm{He}\) is 0.000137\(\%\) . (a) How many protons, neutrons, and electrons are in an atom of \(^{3} \mathrm{He?}\) (b) Based on the sum of the masses of their subatomic particles, which is expected to be more massive, an atom of \(^{3} \mathrm{He}\) or an atom of \(^{3} \mathrm{H}(\) which is also called tritium)? (c) Based on your answer to part (b), what would need to be the precision of a mass spectrometer that is able to differentiate between peaks that are due to \(^{3} \mathrm{He}^{+}\) and \(^{3} \mathrm{H}^{+}\) ?

Predict whether each of the following compounds is molecular or ionic: (a) \(\mathrm{B}_{2} \mathrm{H}_{6},(\mathbf{b}) \mathrm{CH}_{3} \mathrm{OH},(\mathbf{c}) \mathrm{LiNO}_{3},(\mathbf{d}) \mathrm{Sc}_{2} \mathrm{O}_{3}\) (e) \(\mathrm{CsBr},(\mathbf{f}) \mathrm{NOCl},(\mathbf{g}) \mathrm{NF}_{3},(\mathbf{h}) \mathrm{Ag}_{2} \mathrm{SO}_{4}\)

One way in which Earth's evolution as a planet can be understood is by measuring the amounts of certain isotopes in rocks. One quantity recently measured is the ratio of 1129 \(\mathrm{Xe}\) to \(^{130} \mathrm{Xe}\) in some minerals. In what way do these two isotopes differ from one another? In what respects are they the same?

Give the name or chemical formula, as appropriate, for each of the following acids: \((\mathbf{a}) \mathrm{HBrO}_{3},(\mathbf{b}) \mathrm{HBr},(\mathbf{c}) \mathrm{H}_{3} \mathrm{PO}_{4},(\mathbf{d})\) hypochlorous acid, (e) iodic acid, (f) sulfurous acid.
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