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Chapter Four Ionic Compounds Fundamentals of General, Organic and Biological Chemistry 6th Edition James E. Mayhugh Copyright © 2010 Pearson Education,

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Presentation on theme: "Chapter Four Ionic Compounds Fundamentals of General, Organic and Biological Chemistry 6th Edition James E. Mayhugh Copyright © 2010 Pearson Education,"— Presentation transcript:

1 Chapter Four Ionic Compounds Fundamentals of General, Organic and Biological Chemistry 6th Edition James E. Mayhugh Copyright © 2010 Pearson Education, Inc.

2 Chapter Four 2 Outline ► ►4.1 Ions ► ►4.2 Periodic Properties and Ion Formation ► ►4.3 Ionic Bonds ► ►4.4 Some Properties of Ionic Compounds ► ►4.5 Ions and the Octet Rule ► ►4.6 Ions of Some Common Elements ► ►4.7 Naming Ions ► ►4.8 Polyatomic Ions ► ►4.9 Formulas of Ionic Compounds ► ►4.10 Naming Ionic Compounds ► ►4.11 H + and OH - Ions: An Introduction to Acids and Bases

3 Copyright © 2010 Pearson Education, Inc. Chapter Four 3 Goals ►1.What is an ion, what is an ionic bond, and what are the general characteristics of ionic compounds? Be able to describe ions and ionic bonds, and give the general properties of compounds that contain ionic bonds. ►2.What is the octet rule, and how does it apply to ions? Be able to state the octet rule and use it to predict the electron configurations of ions of main group elements. ►3.What is the relationship between an element’s position in the periodic table and the formation of its ion? Be able to predict what ions are likely to be formed by atoms of a given element.

4 Copyright © 2010 Pearson Education, Inc. Chapter Four 4 Goals Contd. ►4.What determines the chemical formula of an ionic compound? Be able to write formulas for ionic compounds, given the identities of the ions. ►5.How are ionic compounds named? Be able to name an ionic compound from its formula or give the formula of a compound from its name. ►6.What are acids and bases? Be able to recognize common acids and bases.

5 Copyright © 2010 Pearson Education, Inc. Chapter Four Ions ► ►Atoms are electrically neutral because they contain equal numbers of protons and electrons. ► ►By gaining or losing one or more electrons, however, an atom can be converted into a charged particle called an ion. ► ►The symbol for an ion is written by adding the electrical charge as a superscript to the symbol for the element.

6 Copyright © 2010 Pearson Education, Inc. Chapter Four 6 ► ►The loss of one or more electrons from a neutral atom gives a positively charged ion called a cation. ► ►Sodium and other alkali metal atoms have a single electron in their valence shell. ► ►By losing this electron, an alkali metal is converted to a cation with a full valence shell.

7 Copyright © 2010 Pearson Education, Inc. Chapter Four 7 ► ►The gain of one or more electrons by a neutral atom gives a negatively charged ion called an anion. ► ►Chlorine and other halogens have 7 valence electrons. ► ►Halogens easily gain an additional electron to fill out their valence subshell to form anions.

8 Copyright © 2010 Pearson Education, Inc. Chapter Four Periodic Properties and Ion Formation ► ►Ionization energy: The energy required to remove one electron from a single atom in the gaseous state. ► ►Low ionization energies (IE) favor cation formation. ► ►Electron affinity: The energy released on adding an electron to a single atom in the gaseous state. ► ►High electron affinities (EA) favor anion formation. ► ►Going from left to right on the periodic table, IE and EA values both increase.

9 Copyright © 2010 Pearson Education, Inc. Chapter Four 9 ► ►Ionization energies (red) and electron affinities (blue) for the first 36 elements. ► ►Alkali metals have the lowest ionization energies and lose an electron most easily. ► ►Halogens have the highest electron affinities and gain an electron most easily.

10 Copyright © 2010 Pearson Education, Inc. Chapter Four 10 ► ►The noble gases neither gain nor lose an electron easily. They have high IE values and low EA values. ► ►Main group elements near the middle of the periodic table have intermediate values of both IE and EA. ► ►These elements near group 4A lack a strong preference to either lose or gain electrons. ► ►Later we will see that these elements tend not to form ionic bonds but form covalent bonds instead.

11 Copyright © 2010 Pearson Education, Inc. Chapter Four Ionic Bonds When sodium metal reacts with chlorine gas crystals of sodium chloride or table salt are formed.

12 Copyright © 2010 Pearson Education, Inc. Chapter Four 12 ► ►In a violent reaction, sodium atoms transfer electrons to chlorine atoms forming Na + ions and Cl - ions. ► ►The opposite electrical charges attract each other. Crystals of sodium chloride held together by ionic bonds result that are unlike either of the elements from which they are formed. ► ►Ionic bond: The electrical attractions between ions of opposite charge in a crystal. ► ►Ionic compound: A compound that contains ionic bonds.

13 Copyright © 2010 Pearson Education, Inc. Chapter Four 13 ► ►Each Na + ion is surrounded by six Cl - ions, and each Cl - ion is surrounded by six Na + ions. ► ►The crystal is held together by ionic bonds—the attraction between oppositely charged ions. Na + and Cl - ions in a sodium chloride crystal.

14 Copyright © 2010 Pearson Education, Inc. Chapter Four Some Properties of Ionic Compounds ► ►Ionic compounds are usually crystalline solids. ► ►Ions in an ionic solid are held rigidly in place by attraction to their neighbors and can not move about. ► ►Once an ionic solid is dissolved in water or melted, the ions can move freely and conduct electricity. ► ►High melting points and boiling points are observed for ionic compounds because the attractive forces are extremely strong. ► ►Sodium chloride melts at 801ºC and boils at 1413ºC.

15 Copyright © 2010 Pearson Education, Inc. Chapter Four 15 ► ►Ionic solids are not malleable and will shatter if struck sharply. ► ►Ionic compounds dissolve in water if the attraction between water and the ions overcomes the attraction of the ions for one another. ► ►Sodium chloride and some other familiar ionic compounds are very soluble and can be dissolved to make solutions of high concentration. ► ►Other ionic compounds are not water-soluble, because water is unable to overcome the ionic forces in many crystals.

16 Copyright © 2010 Pearson Education, Inc. Chapter Four Ions and the Octet Rule ► ►Main group elements often combine in such a way that each winds up with an electron configuration like a noble gas. Usually 8 valence electrons or an electron octet. ► ►Octet rule: Main group elements tend to undergo reactions that leave them with 8 valence electrons.

17 Copyright © 2010 Pearson Education, Inc. Chapter Four Ions of Some Common Elements ► ►Ionic charges of main group elements can be predicted using the group number and the octet rule. ► ►For 1A, 2A and 3A metals, charge = group number ► ►For nonmetals in groups 5A, 6A, and 7A, anion charge = (group number)-8.

18 Copyright © 2010 Pearson Education, Inc. Chapter Four 18 Ions formed by elements in the first four periods.

19 Copyright © 2010 Pearson Education, Inc. Chapter Four Naming Ions Main group metal cations in group 1A, 2A, and 3A are named by identifying the metal, followed by the word “ion” as shown below: ► ►K + Potassium ion ► ►Mg 2+ Magnesium ion ► ►Al 3+ Aluminum ion For transition metals which can form more than one type of cation, two systems are used.

20 Copyright © 2010 Pearson Education, Inc. Chapter Four 20 ► ►In the old system the ion with the smaller charge ends in -ous and the ion with the larger charge ends in -ic. ► ►The new system uses Roman numerals to indicate the charge on the ion.

21 Copyright © 2010 Pearson Education, Inc. Chapter Four 21 ► ►Anions are named by replacing the ending of the element name with -ide, followed by the word “ion”. ► ►For example, the anion formed by fluorine is the fluoride ion, and the anion formed by sulfur is the sulfide ion.

22 Copyright © 2010 Pearson Education, Inc. Chapter Four Polyatomic Ions ► ►Ions that are composed of more than one atom are called polyatomic ions. ► ►Most polyatomic ions contain oxygen and another element, and their chemical formulas show by subscripts how many of each type of atom are combined. ► ►Sulfate ion, for example, is composed of one sulfur atom and four oxygen atoms, and has a charge of -2, the entire group of atoms acts as a single unit.

23 Copyright © 2010 Pearson Education, Inc. Chapter Four 23

24 Copyright © 2010 Pearson Education, Inc. Chapter Four Formulas of Ionic Compounds ► ►A chemical formula shows the simplest ratio of anions and cations required for a total charge of zero. ►A shortcut is to make the subscript ►A shortcut is to make the subscript of each ion equal to the charge on the other ion.

25 Copyright © 2010 Pearson Education, Inc. Chapter Four 25 Once the numbers and kinds of ions in a compound are known, the formula is written using the following rules: ► ►List the cation first and the anion second; for example, NaCl not ClNa. ► ►Make sure to eliminate any common factors from the subscripts; for example, MgO not Mg 2 O 2. ► ►Do not write the charges of the ions; for example, KF not K+F - ► ►Use parentheses around a polyatomic ion formula if it has a subscript; for example, Al 2 (SO 4 ) 3 not Al 2 SO 43.

26 Copyright © 2010 Pearson Education, Inc. Chapter Four Naming Ionic Compounds ► ►Compounds are named by citing first the cation and then the anion, with a space between words. ► ► For example, MgSO 4 is called magnesium sulfate. ► ►Some metals form more than one ion. We need to specify the charge on the cation in these compounds. The old and new ways to do this are shown in the examples below: ► ►SnCl 2 - Stannous chloride or Tin (II) chloride ► ►SnCl 4 - Stannic chloride or Tin (IV) chloride

27 Copyright © 2010 Pearson Education, Inc. Chapter Four H + and OH - Ions: An Introduction to Acids and Bases ► ►The importance of the H + cation and the OH - anion is that they are fundamental to the concepts of acids and bases. ► ►Acid: A substance that provides H + ions in water; for example, HCl  H + + Cl - ► ►Base: A substance that provides OH - ions in water; for example, NaOH  Na+ + OH -

28 Copyright © 2010 Pearson Education, Inc. Chapter Four 28

29 Copyright © 2010 Pearson Education, Inc. Chapter Four 29 Chapter Summary ► ►Atoms are converted into cations by the loss of one or more electrons and into anions by the gain of one or more electrons. ► ►Ionic compounds are composed of cations and anions held together by ionic bonds. Ionic compounds conduct electricity when dissolved in water, and they are generally crystalline solids with high melting points and high boiling points. ► ►Main group elements tend to form ions in which they have gained or lost the appropriate number of electrons to reach a noble gas configuration.

30 Copyright © 2010 Pearson Education, Inc. Chapter Four 30 Chapter Summary Contd. ► ►Metals lose electrons more easily than nonmetals. As a result, metals usually form cations. ► ►Nonmetals gain electrons more easily than metals. As a result, reactive nonmetals usually form anions. ► ►The ionic charge can be predicted from the group number and the octet rule. For main group metals, the charge on the cation is equal to the group number. For nonmetals, the charge on the anion is equal to the group number-8. ► ►Ionic compounds contain appropriate numbers of anions and cations to maintain overall neutrality.

31 Copyright © 2010 Pearson Education, Inc. Chapter Four 31 Chapter Summary Contd. ► ►Cations have the same name as the metal, monatomic anions have the name ending -ide. ► ►For metals that form more than one ion, a Roman numeral equal to the charge is used to name the ion. ► ►The cation name is given first, with the charge of the metal ion indicated if necessary, and the anion name is given second. ► ►An acid is a substance that yields H + ions when dissolved in water, and a base is a substance that yields OH - ions when dissolved in water.

32 Copyright © 2010 Pearson Education, Inc. Chapter Four 32 Key Words ►Acid ►Anion ►Base ►Cation ►Electron affinity ►Formula unit ►Ion ►Ionic bond ►Ionic compound ►Ionic solid ►Ionization energy ►Octet rule ►Polyatomic ion

33 Copyright © 2010 Pearson Education, Inc. Chapter Four 33 End of Chapter 4


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