| Chapter/ Section |
Title |
Vernier Lab Book |
Vernier Experiment |
Sensor(s) Used |
| 2.2 |
Making a Graph |
Chemistry with Vernier |
5 | Find the Relationship: An Exercise in Graphing Analysis |
|
| 3.2 |
Properties of Water |
Chemistry with Vernier |
2 | Freezing and Melting of Water |
Stainless Steel Temperature Probe
|
| 4 | Heat of Fusion of Ice |
Stainless Steel Temperature Probe
|
| Science with TI-Nspire Technology |
18 | Freezing and Melting of Water |
Stainless Steel Temperature Probe
|
| 4.2 |
Half-Life of Barium-137m |
Nuclear Radiation with Vernier |
3 | Lifetime Measurement |
Vernier Radiation Monitor
|
| 8.1 |
Properties of Ionic Compounds |
Chemistry with Vernier |
12 | Effect of Temperature on Solubility of a Salt |
Stainless Steel Temperature Probe
|
| 13 | Properties of Solutions: Electrolytes and Non-Electrolytes |
Conductivity Probe
|
| 14 | Conductivity of Solutions: The Effect of Concentration |
Conductivity Probe
|
| Science with TI-Nspire Technology |
22 | Properties of Solutions: Electrolytes and Non-Electrolytes |
Conductivity Probe
|
| 23 | Conductivity of Solutions: The Effect of Concentration |
Conductivity Probe
|
| 14.1 |
Charles |
Chemistry with Vernier |
7 | Pressure-Temperature Relationship in Gases |
|
| 14.2 |
Boyle |
Chemistry with Vernier |
6 | Boyle's Law: Pressure-Volume Relationship in Gases |
Gas Pressure Sensor
|
| Science with TI-Nspire Technology |
19 | Boyle's Law: Pressure-Volume Relationship in Gases |
Gas Pressure Sensor
|
| 15.1 |
Making a Solubility Curve |
Chemistry with Vernier |
14 | Conductivity of Solutions: The Effect of Concentration |
Conductivity Probe
|
| Science with TI-Nspire Technology |
23 | Conductivity of Solutions: The Effect of Concentration |
Conductivity Probe
|
| 15.2 |
Freezing Point Depression |
Chemistry with Vernier |
15 | Using Freezing Point Depression to Find Molecular Weight |
Stainless Steel Temperature Probe
|
| 16.1 |
Heats of Solution and Reaction |
Chemistry with Vernier |
1 | Endothermic and Exothermic Reactions |
Stainless Steel Temperature Probe
|
| 18 | Additivity of Heats of Reaction: Hess's Law |
Stainless Steel Temperature Probe
|
| Science with TI-Nspire Technology |
24 | Additivity of Heats of Reaction: Hess's Law |
Stainless Steel Temperature Probe
|
| 16.2 |
Heat of Combustion of Candle Wax |
Chemistry with Vernier |
19 | Heat of Combustion: Magnesium |
Stainless Steel Temperature Probe
|
| 17.1 |
The Rate of a Reaction |
Chemistry with Vernier |
30 | Rate Law Determination of the Crystal Violet Reaction |
|
| 18.2 |
Equilibriums |
Chemistry with Vernier |
20 | Chemical Equilibrium: Finding a Constant, Kc |
|
| 27 | Acid Dissociation Constant, Ka |
pH Sensor
|
| 19.1 |
Acids, Bases, and Neutralization |
Chemistry with Vernier |
23 | Titration Curves of Strong and Weak Acids and Bases |
pH Sensor
|
| 24 | Acid-Base Titration |
|
| 25 | Titration of a Diprotic Acid: Identifying an Unknown |
|
| 26 | Using Conductivity to Find an Equivalence Point |
|
| 19.2 |
Determining the Percent of Acetic Acid in Vinegar |
Chemistry with Vernier |
24 | Acid-Base Titration |
|
| 25.1 |
Radioisotope Dating |
Nuclear Radiation with Vernier |
3 | Lifetime Measurement |
Vernier Radiation Monitor
|
