IB Chemistry with Vernier

In the table below, we have correlated the topics and subtopics with the experiments that are contained in Chemistry with Vernier, unless otherwise noted.

Click on any Vernier experiment to download a free student version of the lab for your evaluation.

Topic	Topic Name	Sub-Topic	Vernier Experiment	Vernier lab book in which the lab is found
1	Stoichiometry	1.4	Boyle's Law: Pressure-Volume Relationship in Gases	Chemistry with Vernier
		1.4	Pressure-Temperature Relationship in Gases	Chemistry with Vernier
		1.5	Determining the Concentration of a Solution	Chemistry with Vernier
		1.5	Conductivity of Solutions: The Effect of Concentration	Chemistry with Vernier
		1.5	Effect of Temperature on Solubility of a Salt	Chemistry with Vernier
4	Bonding	4.1	Properties of Solutions: Electrolytes and Non-Electrolytes	Chemistry with Vernier
		4.2	Evaporation and Intermolecular Attractions	Chemistry with Vernier
		4.3	Evaporation and Intermolecular Attractions	Chemistry with Vernier
		4.5	Evaporation and Intermolecular Attractions	Chemistry with Vernier
5	States of Matter	5.1	Evaporation and Intermolecular Attractions	Chemistry with Vernier
		5.1	Freezing and Melting of Water	Chemistry with Vernier
		5.1	Another Look at Freezing Temperature	Chemistry with Vernier
		5.1	Heat of Fusion of Ice	Chemistry with Vernier
		5.1	Using Freezing Point Depression to Find Molecular Weight	Chemistry with Vernier
		5.1	Boyle's Law: Pressure-Volume Relationship in Gases	Chemistry with Vernier
		5.1	Pressure-Temperature Relationship in Gases	Chemistry with Vernier
		5.1	Fractional Distillation	Chemistry with Vernier
6	Energetics	6.1	Endothermic and Exothermic Reactions	Chemistry with Vernier
		6.2	Energy Content of Foods	Chemistry with Vernier
		6.2	Energy Content of Fuels	Chemistry with Vernier
		6.3	Additivity of Heats of Reaction: Hess's Law	Chemistry with Vernier
		6.3	Heat of Combustion: Magnesium	Chemistry with Vernier
7	Kinetics	7.1	Rate Law Determination of the Crystal Violet Reaction	Chemistry with Vernier
8	Equilibrium	8.1	Chemical Equilibrium: Finding a Constant, K_c	Chemistry with Vernier
		8.1	Acid Dissociation Constant, K_a	Chemistry with Vernier
		8.2	Chemical Equilibrium: Finding a Constant, K_c	Chemistry with Vernier
9	Acids and bases	9.1	Household Acids and Bases	Chemistry with Vernier
		9.1	Acid Rain	Chemistry with Vernier
		9.2	Titration Curves of Strong and Weak Acids and Bases	Chemistry with Vernier
		9.3	Household Acids and Bases	Chemistry with Vernier
		9.5	Acid-Base Titration	Chemistry with Vernier
		9.5	Titration of a Diprotic Acid: Identifying an Unknown	Chemistry with Vernier
10	Oxidation and reduction	10.1	Establishing a Table of Reduction Potentials: Micro-Voltaic Cells	Chemistry with Vernier
		10.1	Lead Storage Batteries	Chemistry with Vernier
		10.2	Establishing a Table of Reduction Potentials: Micro-Voltaic Cells	Chemistry with Vernier
11	Organic Chemistry	11.1	Evaporation and Intermolecular Attractions	Chemistry with Vernier
		11.2	Evaporation and Intermolecular Attractions	Chemistry with Vernier
		11.3	Fractional Distillation	Chemistry with Vernier
15	Energetics	15.1	Additivity of Heats of Reaction: Hess's Law	Chemistry with Vernier
15	Energetics	15.1	Heat of Combustion: Magnesium	Chemistry with Vernier
16	Kinetics	16.1	Rate Law Determination of the Crystal Violet Reaction	Chemistry with Vernier
16	Kinetics	16.2	Rate Law Determination of the Crystal Violet Reaction	Chemistry with Vernier
17	Equilibrium	17.2	Chemical Equilibrium: Finding a Constant, K_c	Chemistry with Vernier
17	Equilibrium	17.2	Acid Dissociation Constant, K_a	Chemistry with Vernier
18	Acids and Bases	18.3	Acid Dissociation Constant, K_a	Chemistry with Vernier
		18.3	Using Conductivity to Find an Equivalence Point	Chemistry with Vernier
		18.5	Acid-Base Titrations	Chemistry with Vernier
		18.5	Titration of a Diprotic Acid: Identifying an Unknown	Chemistry with Vernier
		18.6	Titration Curves of Strong and Weak Acids and Bases	Chemistry with Vernier
19	Oxidation and Reduction	19.1	Establishing a Table of Reduction Potentials: Micro-Voltaic Cells	Chemistry with Vernier
19	Oxidation and Reduction	19.2	Establishing a Table of Reduction Potentials: Micro-Voltaic Cells	Chemistry with Vernier
20	Organic Chemistry	20.1	Evaporation and Intermolecular Attractions	Chemistry with Vernier
20	Organic Chemistry	20.4	Fractional Distillation	Chemistry with Vernier
Option C	Human biochemistry	C.3	Energy of Foods	Chemistry with Vernier
		C.4	Energy of Foods	Chemistry with Vernier
		C.7	Enzyme Action	Biology with Vernier
Option D	Environmental Chemistry	D.3	The Greenhouse Effect	Earth Science with Vernier
		D.4	Acid Rain	Chemistry with Vernier
		D.5	Water Treatment	Earth Science with Vernier
		D.6	Dissolved Oxygen in Water	Biology with Vernier
		D.7	Water Treatment	Earth Science with Vernier
Option E	Chemical Industries	E.4	Fractional Distillation	Chemistry with Vernier
Option F	Fuels and energy	F.1	Energy of Fuels	Chemistry with Vernier
		F.3	α,β, and δ	Nuclear Radiation with Vernier
		F.4	Solar Homes	Earth Science with Vernier
		F.4	Photovoltaic Cells	Earth Science with Vernier
		F.5	Lead Storage Batteries	Chemistry with Vernier
		F.7	Lifetime Measurement	Nuclear Radiation with Vernier
		F.8	α,β, and δ	Nuclear Radiation with Vernier
		F.9	Photovoltaic Cells	Earth Science with Vernier
Option G	Modern Analytical Chemistry	G.3	Beer's Law	Chemistry with Vernier
Option G	Modern Analytical Chemistry	G.7	Photosynthesis	Biology with Vernier

The IB Diploma Program is an official program of the International Baccalaureate Organization (IBO) which authorizes schools to offer it. The material available here has been developed independently of the IBO and is not endorsed by it.