4: Ions and Ionic Compounds

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Page ID: 521730

Sol Parajon Puenzo
Cañada College

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4.1: The Periodic Table and Valence Electrons
The chemical elements are arranged in a chart called the periodic table. Some characteristics of the elements are related to their position on the periodic table.
4.2: Valence Electrons and Lewis Dot Symbols
Why are some substances chemically bonded molecules and others are an association of ions? The answer to this question depends upon the electronic structures of the atoms and nature of the chemical forces within the compounds. Although there are no sharply defined boundaries, chemical bonds are typically classified into three main types: ionic bonds, covalent bonds, and metallic bonds.
4.3: Ions - Losing and Gaining Electrons
Chemists appreciate isotopes and use them in basic and applied research. However, they are more concerned with the movement of electrons. When an atom gains or loses electrons, it becomes a charged species or an ion. When this occurs, the nucleus is not altered. For atoms that lose electrons, an overall positive charge will result (#protons > #electrons). Atoms that form these types of ions are called cations.
4.4: Naming Diatomic Ionic Compounds
This section begins the formal study of nomenclature, the systematic naming of chemical compounds. Each ionic compound has its own unique name that comes from the names of the ions.
4.5: Polyatomic Ions and Formulae for Ionic Compounds
Groups of atoms with an overall charge are called polyatomic ions. Proper chemical formulas for ionic compounds balance the total positive charge with the total negative charge.
4.6: Characteristics of Ionic Compounds
Ionic compounds are composed of cations and anions that are strongly attracted to each other. When dissolved in water, the ions separate from each other, allowing them to form electrolyte solutions.
4.7: The Mole
When objects are small or come in larger quantities, it is often inconvenient, inefficient, or even impossible to deal with the objects one at a time. For these reasons, we often deal with small objects or large quantities in groups, and have even invented names for various numbers of objects.
4.8: Formula Mass, Molecular Mass, and Molar Mass
The formula mass of a substance is the sum of the average atomic masses of each atom represented in the chemical formula and is expressed in atomic mass units. The formula mass of a covalent compound is also called the molecular mass. A convenient amount unit for expressing very large numbers of atoms or molecules is the mole. Experimental measurements have determined the number of entities composing 1 mole of substance to be \(6.022 \times 10^{23}\), a quantity called Avogadro’s number.
4.9: Mole-Mass Conversions
It is possible to convert between moles of material and mass of material.
4.E: Ionic Bonding and Simple Ionic Compounds (Exercises)
These are homework exercises to accompany Chapter 3 of the Ball et al. "The Basics of GOB Chemistry" Textmap.

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