Chemical EquationsWhat is a chemical equation?How do you balance a chemical equation?How do you identify the type of chemical equation?

Chemical EquationsA chemical equation is written as an expression similar to a mathematic equation that can be compared to a recipe that a chemist follows in order to produce desired results.

Chemical EquationsAll chemical equations have reactants and products. We express a chemical equation as follows:

Reactants Products

The arrow is equivalent to an = math. When we describe the equation we use the word yields or produces instead of equals

Conservation of matterThe law of conservation of matter tells us that matter can neither be created nor destroyed. It is transformed from one form to another.

We follow the conservation of matter law when we balance equations.

Balancing a Chemical EquationA chemical equation is balanced when the ions or atoms found on the reactant side of the equation equals that found on the product side.

The arrow can be considered the balance point.

CoefficientsWe use coefficients in front of elements or compounds on either side of the reaction to balance the equation. (The coefficients go in front of the chemical!)

We cannot change subscripts because it would create new materials that are not part of reaction process.

Balance this equation! Na + Cl2 NaCl Na-1Na-1 Cl-2Cl-1

**note that the number of sodiums balance but the chlorine does not. We will have to use coefficients in order to balance this equation.

Inserting subscriptsNa + Cl2 2 NaCl Na-1Na-1 2 Cl-2Cl-1 2

** Now the chlorine balances but the sodium does not! So we go back and balance the sodium.

Finally balanced! 2Na + Cl2 2 NaCl Na-1 2Na-1 2 Cl-2Cl-1 2

**Since the number of each element on the reactant side and the product side of the equation are equal, the equation is balanced.

Balancing Equation PracticeCuCl3 + Li2S Cu2S3 + LiClNiNO3 + KCl NiCl+ KNO3FeCl3 + Na2O Fe2O3 + NaCl

Answers:1. 2CuCl3 + 3Li2S Cu2S3 + 6LiCl2. NiNO3 + KCl NiCl+ KNO3(already balanced)3. 2FeCl3 + 3Na2O Fe2O3 + 6NaCl

Identifying Reaction TypesReactions are classified by their products.

There are several different types of chemical reactions. The 5 basic types of chemical reactions we will study are: synthesis or combination reactions, decomposition reactions, single replacement reactions, double replacement reactions, and combustion reactions.

Synthesis or Combination reactionsSynthesis (meaning to make) or combination reactions are typified by their single product.

If you have a reaction in which at least 2 elements or compounds are reacted and produce a single product, the reaction is a synthesis reaction.

Synthesis Reactions

A + B AB

Note: Single Product! This is your clue that this is a synthesis or combination reaction.

Decomposition ReactionsDecomposition reactions are really just the opposite of a synthesis reaction. Remember, if you can make a substance, you should be able to break it back apart into its components.

A good way to remember decomposition reactions to to remember what happens when something decomposes. It falls apart!

Decomposition ReactionsAB A + B

Note: Single Reactant! The single reactant is your clue that this is a decomposition reaction.

Single Replacement ReactionsSingle replacement reactions occur when one chemical takes the place of another in a reaction.

In the typical single replacement reaction, an element trades places with one of the ions in a compound.

Single Replacement Reactions A + CD AD + C

Note: Element A replaces ion C in the reaction. The clue in this reaction is:Element+Compound Element + Compound

Double Replacement ReactionsDouble replacement reactions are identified by two ions trading places and forming new compounds.

Double Replacement ReactionsAB + CD AD + CB

Note: Notice that one ion from compound AB replaces one ion from compound CD.Clue: Compound+CompoundCompound+Compound

Combustion ReactionsCombustion reactions are the ones that burn (or explode!). There are two types of combustion reactionscomplete or incomplete reactions.

These reactions are identified by their products. They either produce carbon monoxide and water or carbon dioxide and water.

Complete Combustion ReactionsThese reactions burn efficiently which means they produce carbon dioxide and water. These reactions typically burn cleanly and leave very little residue behind.

Complete Combustion ReactionsCH4 + O2 CO2 + H2O

They may also be written:CH4 CO2 + H2O (O2 is usually written above the arrow.)

Clue: CO2 (carbon dioxide) in the product along with water

Incomplete Combustion ReactionsIncomplete combustion reactions occur when something does not burn efficiently. This can cause a lot of harm if the gases produced cannot escape. Carbon monoxide,an odorless and colorless gas, is dangerous. People poisoned by this gas usually become sleepy and can die due to exposure.

Incomplete Combustion ReactionsCH4 + O2 CO + H2O

These reactions may also be written by:CH4 CO + H2O (the O2 is usually written over the arrow.)

Clue: CO (Carbon monoxide as a product.)

Completing ReactionsCompleting reactions requires knowledge of the different reaction types (sometimes called mechanisms).

You must first identify the reaction type by the reactants. The only type of reaction that cannot be predicted this way is the combustion reaction since the products are very similar.

First Step:Identify reaction type

Example: Al + O2

Clue: 2 elements Synthesis or combination reaction

Second Step:Write the net ionic equation for the reactants

Al + O2

Al3+ + O2-

Step 3Using clues, complete reaction taking care to write each formula correctly by checking charges and criss-crossing if necessary.

Al + O2 Al3+O2-

Al + O2 Al2O3

Completion PracticeNa + K2SO4 PbSO4 + LiCl Ca + H2O