Experimental organic chemistry with emphasis on underlying physical principles. Separation and purification, synthesis, analysis, and identification of organic compounds, including spectroscopy. Microscale work predominates. Emphasis on safe laboratory practices and proper disposal of wastes. Prerequisite or co-requisite: CHEM 262 or 266.

Experimental organic chemistry with emphasis on underlying physical principles. Separation and purification, synthesis, analysis, and identification of organic compounds, including spectroscopy. Microscale work predominates. Emphasis on safe laboratory practices and proper disposal of wastes. Prerequisite or co-requisite: CHEM 262 or 266.

Experimental organic chemistry with emphasis on underlying physical principles. Separation and purification, synthesis, analysis, and identification of organic compounds, including spectroscopy. Microscale work predominates. Emphasis on safe laboratory practices and proper disposal of wastes. Prerequisite or co-requisite: CHEM 262 or 266.

Experimental organic chemistry with emphasis on underlying physical principles. Separation and purification, synthesis, analysis, and identification of organic compounds, including spectroscopy. Microscale work predominates. Emphasis on safe laboratory practices and proper disposal of wastes. Prerequisite or co-requisite: CHEM 262 or 266.

Experimental organic chemistry with underlying physical principles: separation and purification, synthesis, and analysis, including spectroscopy. Identification of organic compounds and use of library resources. Work conducted on micro- and macroscales with emphasis on safe laboratory practice and proper disposal of wastes. Prerequisite or corequisite: CHEM 265.

Introduction to the structure and synthesis of organic molecules, the reactions of the principal functional groups, and the basic theory of organic chemistry. The prediction of reaction products using reaction mechanisms, and the determination of organic structure using spectroscopy. The underlying role of stereochemistry in organic structure and reactions will be emphasized.

Organic Chemistry II for Non Majors. Together with CHEM 261 satisfies requirements for medical school admissions. Acceptable, with approval of the Undergraduate Chemistry Adviser, though not recommended, for chemistry majors. Brief review of basic principles of chemical bonding, electronic theory, and acid-base reactions. Introduction to principles of stereochemistry and organic spectroscopy. Discussions of the most common types of reactions of organic molecules and their mechanisms.

Together with CHEM 262 satisfied requirements for medical school admissions. Acceptable, with approval of the Undergraduate Chemistry Adviser, though not recommended, for chemistry majors. Brief review of basic principles of chemical bonding, electronic theory, and acid-base reactions. Introduction to principles of stereochemistry and organic spectroscopy. Discussions of the most common types of reactions of organic molecules and their mechanisms.

Together with CHEM 262 satisfied requirements for medical school admissions. Acceptable, with approval of the Undergraduate Chemistry Adviser, though not recommended, for chemistry majors. Brief review of basic principles of chemical bonding, electronic theory, and acid-base reactions. Introduction to principles of stereochemistry and organic spectroscopy. Discussions of the most common types of reactions of organic molecules and their mechanisms.

Together with CHEM 262 satisfied requirements for medical school admissions. Acceptable, with approval of the Undergraduate Chemistry Adviser, though not recommended, for chemistry majors. Brief review of basic principles of chemical bonding, electronic theory, and acid-base reactions. Introduction to principles of stereochemistry and organic spectroscopy. Discussions of the most common types of reactions of organic molecules and their mechanisms.