Section 3.3 Stoichiometry and Chemical Reactions.

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Presentation transcript:

Section 3.3 Stoichiometry and Chemical Reactions

In this section: a. Chemical reactions and equations b. Balancing equations c. Reaction stoichiometry

Chemical reactions and equations Reactants Products CH 3 CHCH 2 + HCl CH 3 CHClCH 3

Chemical equation: before and after Mechanism: how you get there Step 1. Step 2.

The most important thing: It’s the same atoms Reactants Products CH 3 CHCH 2 + HCl CH 3 CHClCH 3

The Law of Conservation of Matter It’s the same atoms Stoichiometric Coefficients: CH 3 CHCH 2 + HCl CH 3 CHClCH 3 C 2 H H 2 CH 3

Balancing Chemical Equations Goal: same number of atoms of each element on both sides Rule: you can change stoichiometry coefficients, not the molecular formulas CH 4 + O 2 CO 2 + H 2 O

A bit harder C 4 H 10 + O 2 CO 2 + H 2 O Another Example: Mg + O 2 MgO

Big misconception: stoichiometric coefficients are NOT how much reacts/forms CH O 2 CO H 2 O

Balancing Equation = mol to mol conversion factor CH O 2 CO H 2 O

Amounts tables: If 0.46 mol O 2 react, how much CO 2 and H 2 O are formed, and how much CH 4 reacts? CH O 2 CO H 2 O change:

Real experiments use mass, not moles. gram gram conversions Path: grams A moles A moles B grams B

CH O 2 CO H 2 O 25.0 g of O 2 react. What mass of CH 4 reacts and what masses of CO 2 and H 2 O are formed?

CH O 2 CO H 2 O 25.0 g of O 2 react. What mass of CH 4 reacts and what masses of CO 2 and H 2 O are formed?

Sections 3.4 and 3.5 Limiting Reactants, Percent Yield and Chemical Analysis

In these sections: a. Identifying limiting reactants b. Calculating theoretical yield c. Calculating percent yield d. Chemical analysis

The Idea of Limiting Reactants If you have 200 tires and 75 steering wheels, how many cars can you make?

Identifying Limiting Reactants If you have 200 tires and 75 steering wheels, how many cars can you make? 4 tires + 1 steering wheel  1 car Mole Ration Method: Maximum Product Method:

Using Amounts Tables: after determining limiting reactant Initial amounts: Fe 2 O 3 : 100 g = mol C: 50.0 g = 4.16 mol 2 Fe 2 O C  4 Fe + 3 CO 2 initial change final

Percent Yield

Alum Lab Calculations: Let’s say you start with g Al and actually make 14.8 g KAl(SO 4 ) 2  12 H 2 O product. What is the percent yield? Molar masses: Al = g/mol; KAl(SO 4 ) 2  12 H 2 O = g/mol

Chemical Analysis: Using stoichiometry to determining how much of one thing is in another A sample of soil is analyzed for the element iodine. A 2.68-g sample is treated so all the iodine containing compounds dissolve and the iodine is converted to iodide ion. The solution is treated with dissolved Pb 2+ ion, and the following reaction occurs: Pb 2+ (aq) + 2 I - (aq)  PbI 2 (s) If g of PbI2 are obtained, what was the percent iodine in the original sample?

Chemical Analysis: Determining Formulas CHO Analyzer burn: g sample collect: g H 2 O g CO 2