Chapter 6 Chemical Bonding

I. Formation of Ions

A. When an atom gains or loses electrons

B. Ion: An atom that has a net positive or negative electric charge

1. Represented by a + or a –

2. Example:

3. Anion: An ion with a negative charge

4. Cation: An ion with a positive charge

II. Chemical bond: The force that holds atoms or ions together as a unit

A. Ionic bond: Achieve stable electron configurations through the transfer of electrons between atoms

1. Octet: When the outer energy level is filled with 8 electrons (8 valence electrons)

B. Ionic Compounds: Compounds that contain ionic bonds (Metal and a non-metal)

1. Chemical formula: A notation that shows what elements a compound contains and the ratio of the atoms or ions of these elements in the compound

-NaCl, MgCl2

III. Naming Compounds and Writing Formulas

A. Binary ionic compounds (metal and non-metal)

a. Name of cation followed by name of anion

1. Change suffix on non-metal to “ide”

B. Stock System

a. Many Transition Metals with multiple ions

b. Roman numeral indicates charge

C. Polyatomic ion: A covalently bonded group of atoms that has a positive or negative charge and acts as a unit

Ex:

D. Steps for writing formulas for Ionic compounds

1. Write symbol of cation

2. Write symbol of anion

3. Determine charges

4. Cross over

5. Check using algebra

Ex: Calcium Chloride

Barium fluoride

Lithium Oxide

SrI2

K2S

Fr2O

Examples using Polyatomic Ions:

Magnesium Nitrate

Calcium Sulfate

Beryllium Phosphate

Aluminum hydroxide

Li2CO3

BaMnO4

Examples Using the Stock System (Roman Numerals)

Iron II chloride

Tin IV Chloride

Copper I Sulfate

Nickel I Carbonate

FeSO4

NiC2H3O2

Pb(NO3)2

B. Crystal lattice: Set of attractions that keeps ions in fixed positions in a rigid framework

Ex: NaCl; Each Cl- is surrounded by 6 Na+

1. Crystals: Solids whose particles are arranged in a lattice structure

2. Properties of Ionic compounds

a. High melting point (NaCl 801oC)

b. Good conductor of electricity when melted (molten state)

c. Shatter when struck

C. Ionization energy: The amount of energy used to remove an electron form an atom

a. Increases across period

b. Decreases down group

II. Covalent Bonding (2 non-metals)

A. Covalent Bonds: A chemical bond in which two atoms share a pair of valence electrons

1. Sharing electrons

a. Achieve a stable electron configuration

2. Molecule: A neutral group of atoms that are joined together by one or more covalent bonds (2 non-metals)

3. Diatomic molecules: Two atoms

a. H2, N2, O2, F2, Cl2, Br2, I2

4. Multiple covalent bonds

a. Double

b. Triple

5. Polar Covalent bond: Covalent bond in which electrons are not shared equally

B. Polar and Non-polar molecules

1. Polar (H2O and HCl)

a. High boiling points

b. Surface tension

c. High attraction for one another

2. Non-polar Molecules (CO2)

a. Low boiling points

b. Low surface tension

c. Low attraction for one another

III. Naming Molecular Compounds (Between 2 non-metals)

A. Write most metallic atom first (left side of table)

B. 2nd element ends in “ide”

C. Greek prefixes indicate number of atoms

a. If there is only one of the first element do not use “mono”

Covalently Bonded atoms; molecules (2 non-metals)

Examples:

P5O10

N3Cl7

C4Cl8

Diphosphorustetrafluoride

Nitrogen dioxide

Hexasilicontriphosphide

IV. The Structure of Metals

A. Metallic Bond: The attraction between a metal cation and the shared electrons that surround it

1. Electron sea model

B. Alloy: A mixture of two or more elements, at least one of which is a metal

1. Copper alloys

a. Bronze; copper and tin

b. Brass; copper and zinc

2. Steel Alloys; iron and carbon

3. Aluminum Alloys: Airplanes (Cu, Mn)

Chapter 7 Chemical Reactions

I. Chemical Equations: A representation of a chemical reaction in which the reactants and products are expressed as formulas

1. Reactants: The substances that undergo change

a. Left side of the equation

2. Products: The new substances that formed as a result of that change

a. Right side of the equation

II. The Law of the Conservation of Mass: Mass is neither created nor destroyed in a chemical reaction

1. Lavoisier (1743-1794)

III. Balancing Equations:

1. Coefficients: The numbers that appear before the formulas

2. First balance the atoms that appear only once on each side of the equation

3. Balance polyatomic ions that appear on both sides as single units

4. Balance H and O atoms last

5. Count atoms to be sure that equation is balanced

IV. Types of Reactions

A. Classification Reactions

1. Synthesis: A reaction in which two or more substances react to form a single substance

A + B  AB

2. Decomposition: a reaction in which a compound breaks down into two or more simpler substances

AB  A + B

3. Single Replacement: A reaction in which one element takes the place of another element in a compound

A + BC B + AC

4. Double Replacement: A reaction in which two different compounds exchange positive ions and form two new compounds

AB + CD AD + CB

5. Combustion: A reaction in which a substance reacts rapidly with oxygen, often producing heat and light

CH4 + O2 H2O + CO2

V. Energy Changes in Reactions

A. Chemical Energy: The energy stored in chemical bonds of a substance

1. Breaking of bonds in reactants

2. Forming of bonds in products

Ex: Lighting a gas grill

B. Exothermic and Endothermic reactions

1. Exothermic reaction: A chemical reaction that releases energy to its surroundings

a. Gets warmer

C. Endothermic reaction: A chemical reaction that absorbs energy from its surroundings

a. Gets colder

D. Chemical change: occurs when a substance reacts and forms one or more new substances

1. Four types of evidence for a chemical change

a. Color change

1. Silver tarnishing

b. Production of gas (bubbles)

c. The formation of a precipitate

1. Precipitate: A solid that forms and separates from a liquid mixture

d. Energy change (Change in temp)

1. Release or absorb heat (temperature change)

2. Production of light