Course Outline
Contact Hours: 51.00 Lecture/102.00 Lab
Out of Class Hours: 102.00
Total Course Hours: 255.00
- Demonstrate basic experimental knowledge by employing standard laboratory techniques for data gathering, judging the accuracy and reliability of data, creating informative graphs, and discussing the limitations of experimental designs.
- Demonstrate basic analytical skills by interpreting graphs and schematics and diagnosing realistic physical problems.
- Demonstrate conceptual understanding by being able to describe qualitatively the underlying causes of basic physical and chemical phenomena.
| Topics | Lec Hrs | ||||||||
|---|---|---|---|---|---|---|---|---|---|
Properties of Solutions | 4.00 | ||||||||
Chemical Kinetics | 6.00 | ||||||||
Chemical Equilibrium | 5.00 | ||||||||
Acids and Bases | 5.00 | ||||||||
Acid-Base Equilibria | 6.00 | ||||||||
Solubility and Complex Ion Equilibria | 3.00 | ||||||||
Spontaneity, Entropy and Free Energy | 6.00 | ||||||||
Electrochemistry | 6.00 | ||||||||
The Nucleus: A Chemist's View | 5.00 | ||||||||
Transition Metals and Coordination Chemistry | 5.00 | ||||||||
| Total Hours: | 51.00 | ||||||||
| Topics | Lab Hrs | ||||||||
|---|---|---|---|---|---|---|---|---|---|
Properties of Solutions | 6.00 | ||||||||
Chemical Kinetics | 12.00 | ||||||||
Chemical Equilibrium | 12.00 | ||||||||
Acids and Bases | 12.00 | ||||||||
Acid-Base Equilibria | 12.00 | ||||||||
Solubility and Complex Ion Equilibria | 12.00 | ||||||||
Spontaneity, Entropy and Free Energy | 9.00 | ||||||||
Electrochemistry | 12.00 | ||||||||
The Nucleus: A Chemist's View | 6.00 | ||||||||
Transition Metals and Coordination Chemistry | 9.00 | ||||||||
| Total Hours: | 102.00 | ||||||||
- Class Activities
- Homework: Students are required to complete two hours of outside-of-class homework for each hour of lecture
- Instructor Demonstrations
- Laboratory Experiments
- Lecture
- Reading Assignments
- Quizzes
- Lab Projects
- Final Examination
- Examinations
- Written examinations, Laboratory reports and activities
Read the section on integrated rate laws in the text, and be prepared to participate in discussions of the derivation of these laws and be able to apply them to zero, first and second order reactions.
In your text, read the sections on the common ion effect and acid/base equilibrium. Be prepared to answer examination questions regarding applications of the common ion effect, in particular with respect to determining the acid dissociation constant, and the pH of buffered solutions.
For the experiment to determine the rate law for a chemical reaction, create a properly formatted report in your lab notebook. The report must include the title, date, an overview and data tables.
For the experiment to determine the Ka of a weak acid, write a report that includes the title, date, an overview and data tables.
After reading the experiment for determining the rate law for a chemical reaction, complete the prelab and use the method of initial rates to calculate the order of the reaction with respect to the assigned species.
After reading the experiment for determining the acid dissociation constant for a chemical reaction, complete the prelab and calculate the Ka for a reaction using the graph of a titration curve.