Organic Chemistry I Lab

How to handle overenrollment: See CHEM 221

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: See CHEM 221

Organic Chemistry I Lab

How to handle overenrollment: See CHEM 221

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: See CHEM 221

A study of the structure of organic compounds and of the influence of structure upon the chemical and physical properties of these substances. The following topics are emphasized: hybridization, resonance theory, stereochemistry, acid-base properties, nucleophilic substitution reactions, and spectroscopy. Periodically, examples will be chosen from recent articles in the chemical, biochemical, and biomedical literature. Laboratory work introduces the student to basic laboratory techniques and methods of instrumental analysis. Each laboratory section is limited to 20 students.

A study of the structure of organic compounds and of the influence of structure upon the chemical and physical properties of these substances. The following topics are emphasized: hybridization, resonance theory, stereochemistry, acid-base properties, nucleophilic substitution reactions, and spectroscopy. Periodically, examples will be chosen from recent articles in the chemical, biochemical, and biomedical literature. Laboratory work introduces the student to basic laboratory techniques and methods of instrumental analysis. Each laboratory section is limited to 20 students.

A study of the structure of organic compounds and of the influence of structure upon the chemical and physical properties of these substances. The following topics are emphasized: hybridization, resonance theory, stereochemistry, acid-base properties, nucleophilic substitution reactions, and spectroscopy. Periodically, examples will be chosen from recent articles in the chemical, biochemical, and biomedical literature. Laboratory work introduces the student to basic laboratory techniques and methods of instrumental analysis. Each laboratory section is limited to 20 students.

A study of the structure of organic compounds and of the influence of structure upon the chemical and physical properties of these substances. The following topics are emphasized: hybridization, resonance theory, stereochemistry, acid-base properties, nucleophilic substitution reactions, and spectroscopy. Periodically, examples will be chosen from recent articles in the chemical, biochemical, and biomedical literature. Laboratory work introduces the student to basic laboratory techniques and methods of instrumental analysis. Each laboratory section is limited to 20 students.

A study of the structure of organic compounds and of the influence of structure upon the chemical and physical properties of these substances. The following topics are emphasized: hybridization, resonance theory, stereochemistry, acid-base properties, nucleophilic substitution reactions, and spectroscopy. Periodically, examples will be chosen from recent articles in the chemical, biochemical, and biomedical literature. Laboratory work introduces the student to basic laboratory techniques and methods of instrumental analysis. Each laboratory section is limited to 20 students.

Chemical Principles Lab

How to handle overenrollment: null

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: See CHEM 161

Chemical Principles Lab

How to handle overenrollment: null

Students who enroll in this course will likely encounter and be expected to engage in the following intellectual skills, modes of learning, and assessment: See CHEM 161

As a bridge to prior learning, we will begin with the study of intermolecular forces and their ubiquitous role in chemistry and biology. We will then introduce chemical kinetics to understand the role temperature, concentration, and catalysts play in determining the speeds at which chemical reactions occur and to introduce the concept of chemical equilibrium. Through a thorough treatment of the laws of thermodynamics, we will develop a quantitative understanding of the factors which determine the extent to which chemical reactions can occur before reaching the state of equilibrium.