Introduction to chemical compounds

What are Compounds Like?

The Synthesis and Characterization of Zinc Iodide

Introduction to chemical reactions

Precipitation Reactions

Reactions of Acids

Redox Reactions

Introduction to chemical arithmetic: mass and solution stoichiometry

The Carbonate Project

The structure behind chemical behavior

Emission Spectra

Investigating Periodic Properties

The driving forces behind chemical change

Bond Breaking and the Heat of Reaction

Determination of the Heat of Formation for Magnesium Oxide

An Entropy-driven reaction

The structure of molecules and the condensed states of matter

Gas Chromatography and Intermolecular Forces

Separation of Plant Pigments by Paper Chromatography

Classifying Solids

Vapor Pressure and Structure

Gases

The Physical Behavior of Gases

Chemical Properties of Common Gases

Gas Stoichiometry: Revisiting the Carbonate Project

Intersession: The Dreaded Nine Bottle Problem

The behavior of mixtures: solutions

The Process of Solution

Solution Concentration and Absorbance

Molar Mass Determination by Freezing Point Depression

Chemical kinetics

Factors Affecting Rates of Reactions

The Rate of Iodination of 2-propanone

Chemical equilibrium

Factors Affecting Equilibrium

Colorimetric Determination of Kc

The Thermodynamics of Solubility Equilibrium

Nuclear processes

The Half-life of an Isotope

Acid/Base Equilibria

A Closer Look at Acid/Base Neutralization Reactions

Weak Acids and Ka

Hydrolysis of Salts

The Common Ion Effect and Buffer Solutions

Electrochemistry

Galvanic Cells

The Corrosion of Iron

Electrolysis of Solutions

Electroplating

Electrochemical Production of Hydrogen Gas and Copper(II) Ion; Iodometric Titration of Copper(II) Ion