| Title | Instructors | Location | Time | Description | Cross listings | Fulfills | Registration notes | Syllabus | Syllabus URL | ||
|---|---|---|---|---|---|---|---|---|---|---|---|
| CHEM 0250-302 | Structural Biology | Jeffery G Saven | TR 8:30 AM-9:29 AM | This course will explore how biological properties are determined by the microscopic chemical properties of proteins and biomacromolecules. We will discuss how research results, especially those of structural biology, are presented to its various audiences. | Natural Sciences & Mathematics Sector | Perm Needed From Instructor | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202330&c=CHEM0250302 | ||||
| CHEM 1011-001 | Introduction to General Chemistry I | Anthony Cirri | MWF 3:30 PM-4:59 PM | CHEM 1011 is an introductory college-level course in chemistry intended for students with less preparation in high school chemistry and mathematics. The course content parallels that of CHEM 1012, but with emphasis placed on developing problem-solving strategies and developing the underlying chemical principles. The course will take an 'atoms first' approach to introductory chemistry, where topical coverage includes an overview of quantum theory, atomic structure, the periodic table, chemical bonding, elementary chemical reactions, stoichiometry, ideal gases, and intermolecular interactions. Topics from mathematics and physics that are necessary to chemical problem-solving will be included as needed. Prerequisite: Students with credit for CHEM 1012 may not enroll in CHEM 1011. Credit will not be awarded for both CHEM 1011 and 1012. | Physical World Sector | ||||||
| CHEM 1011-201 | Introduction to General Chemistry I | R 3:30 PM-4:29 PM | CHEM 1011 is an introductory college-level course in chemistry intended for students with less preparation in high school chemistry and mathematics. The course content parallels that of CHEM 1012, but with emphasis placed on developing problem-solving strategies and developing the underlying chemical principles. The course will take an 'atoms first' approach to introductory chemistry, where topical coverage includes an overview of quantum theory, atomic structure, the periodic table, chemical bonding, elementary chemical reactions, stoichiometry, ideal gases, and intermolecular interactions. Topics from mathematics and physics that are necessary to chemical problem-solving will be included as needed. Prerequisite: Students with credit for CHEM 1012 may not enroll in CHEM 1011. Credit will not be awarded for both CHEM 1011 and 1012. | Physical World Sector | |||||||
| CHEM 1011-202 | Introduction to General Chemistry I | R 5:15 PM-6:14 PM | CHEM 1011 is an introductory college-level course in chemistry intended for students with less preparation in high school chemistry and mathematics. The course content parallels that of CHEM 1012, but with emphasis placed on developing problem-solving strategies and developing the underlying chemical principles. The course will take an 'atoms first' approach to introductory chemistry, where topical coverage includes an overview of quantum theory, atomic structure, the periodic table, chemical bonding, elementary chemical reactions, stoichiometry, ideal gases, and intermolecular interactions. Topics from mathematics and physics that are necessary to chemical problem-solving will be included as needed. Prerequisite: Students with credit for CHEM 1012 may not enroll in CHEM 1011. Credit will not be awarded for both CHEM 1011 and 1012. | Physical World Sector | |||||||
| CHEM 1011-601 | Introduction to General Chemistry I | Marta Guron | R 5:15 PM-8:14 PM | CHEM 1011 is an introductory college-level course in chemistry intended for students with less preparation in high school chemistry and mathematics. The course content parallels that of CHEM 1012, but with emphasis placed on developing problem-solving strategies and developing the underlying chemical principles. The course will take an 'atoms first' approach to introductory chemistry, where topical coverage includes an overview of quantum theory, atomic structure, the periodic table, chemical bonding, elementary chemical reactions, stoichiometry, ideal gases, and intermolecular interactions. Topics from mathematics and physics that are necessary to chemical problem-solving will be included as needed. Prerequisite: Students with credit for CHEM 1012 may not enroll in CHEM 1011. Credit will not be awarded for both CHEM 1011 and 1012. | Physical World Sector | ||||||
| CHEM 1011-602 | Introduction to General Chemistry I | Marta Guron | R 8:15 PM-9:14 PM | CHEM 1011 is an introductory college-level course in chemistry intended for students with less preparation in high school chemistry and mathematics. The course content parallels that of CHEM 1012, but with emphasis placed on developing problem-solving strategies and developing the underlying chemical principles. The course will take an 'atoms first' approach to introductory chemistry, where topical coverage includes an overview of quantum theory, atomic structure, the periodic table, chemical bonding, elementary chemical reactions, stoichiometry, ideal gases, and intermolecular interactions. Topics from mathematics and physics that are necessary to chemical problem-solving will be included as needed. Prerequisite: Students with credit for CHEM 1012 may not enroll in CHEM 1011. Credit will not be awarded for both CHEM 1011 and 1012. | Physical World Sector | ||||||
| CHEM 1012-001 | General Chemistry I | Ivan J Dmochowski | MWF 10:15 AM-11:14 AM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | ||||||
| CHEM 1012-003 | General Chemistry I | Anthony Cirri | MWF 1:45 PM-2:44 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | ||||||
| CHEM 1012-004 | General Chemistry I | Jonathan Fagan Sean P Holleran |
MWF 12:00 PM-12:59 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | ||||||
| CHEM 1012-005 | General Chemistry I | Jonathan Fagan Sean P Holleran |
MWF 1:45 PM-2:44 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | ||||||
| CHEM 1012-210 | General Chemistry I | F 1:45 PM-3:14 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-211 | General Chemistry I | R 3:30 PM-4:59 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-212 | General Chemistry I | R 12:00 PM-1:29 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-230 | General Chemistry I | F 3:30 PM-4:59 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-231 | General Chemistry I | R 5:15 PM-6:44 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-232 | General Chemistry I | R 8:30 AM-9:59 AM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-233 | General Chemistry I | F 3:30 PM-4:59 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-240 | General Chemistry I | R 12:00 PM-12:59 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-241 | General Chemistry I | R 3:30 PM-4:29 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-242 | General Chemistry I | F 1:45 PM-2:44 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-250 | General Chemistry I | R 12:00 PM-12:59 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-251 | General Chemistry I | R 3:30 PM-4:29 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1012-252 | General Chemistry I | F 3:30 PM-4:29 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 1011. Prerequisite: Students with credit for CHEM 1011 may not enroll in CHEM 1012. Credit is not awarded for both CHEM 1011 and CHEM 1012. | Physical World Sector | |||||||
| CHEM 1022-001 | General Chemistry II | Jonathan Fagan | TR 1:45 PM-3:14 PM | Continuation of CHEM 1012: General Chemistry I. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | ||||||
| CHEM 1022-201 | General Chemistry II | F 12:00 PM-1:29 PM | Continuation of CHEM 1012: General Chemistry I. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | |||||||
| CHEM 1022-202 | General Chemistry II | F 1:45 PM-3:14 PM | Continuation of CHEM 1012: General Chemistry I. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | |||||||
| CHEM 1022-203 | General Chemistry II | F 3:30 PM-4:59 PM | Continuation of CHEM 1012: General Chemistry I. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | |||||||
| CHEM 1101-001 | General Chemistry Laboratory I | Jenine Maeyer | T 8:30 AM-9:29 AM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-002 | General Chemistry Laboratory I | Jenine Maeyer | T 12:00 PM-12:59 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-110 | General Chemistry Laboratory I | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||||
| CHEM 1101-130 | General Chemistry Laboratory I | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||||
| CHEM 1101-150 | General Chemistry Laboratory I | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||||
| CHEM 1101-160 | General Chemistry Laboratory I | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||||
| CHEM 1101-170 | General Chemistry Laboratory I | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||||
| CHEM 1101-180 | General Chemistry Laboratory I | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||||
| CHEM 1101-601 | General Chemistry Laboratory I | Jenine Maeyer | T 5:15 PM-6:14 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-602 | General Chemistry Laboratory I | Jenine Maeyer | T 7:00 PM-9:59 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1102-001 | General Chemistry Laboratory II | Jenine Maeyer | W 1:45 PM-2:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-210 | General Chemistry Laboratory II | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||||
| CHEM 1102-240 | General Chemistry Laboratory II | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||||
| CHEM 1151-001 | Honors Chemistry I | Jessica M Anna | TR 10:15 AM-11:44 AM | This course will focus on introducing students to the following topics: the nature of the chemical bond (forces, potentials, and quantum mechanics), covalent and non-covalent interactions, properties of gasses, liquids, and solids. Students in section 001 will be introduced to modern computational chemistry methods and section 002 introduces students to modern experimental techniques. Prerequisite: AP Chemistry exam score of 5. | Physical World Sector | Perm Needed From Department | |||||
| CHEM 1151-201 | Honors Chemistry I | W 3:30 PM-4:29 PM | This course will focus on introducing students to the following topics: the nature of the chemical bond (forces, potentials, and quantum mechanics), covalent and non-covalent interactions, properties of gasses, liquids, and solids. Students in section 001 will be introduced to modern computational chemistry methods and section 002 introduces students to modern experimental techniques. Prerequisite: AP Chemistry exam score of 5. | Physical World Sector | |||||||
| CHEM 1151-202 | Honors Chemistry I | R 5:15 PM-6:14 PM | This course will focus on introducing students to the following topics: the nature of the chemical bond (forces, potentials, and quantum mechanics), covalent and non-covalent interactions, properties of gasses, liquids, and solids. Students in section 001 will be introduced to modern computational chemistry methods and section 002 introduces students to modern experimental techniques. Prerequisite: AP Chemistry exam score of 5. | Physical World Sector | |||||||
| CHEM 1200-001 | Environmental Chemistry | Marsha Isack Lester Eric J Schelter |
TR 12:00 PM-1:29 PM | The course aims to teach chemical content and principles in the context of significant environmental issues. Topics to be covered include: composition of the atmosphere; protecting the ozone layer; chemistry of global warming; traditional hydrocarbon fuels and energy utilization; water supply, its contaminants, and waste water treatment; acid rain; nuclear energy; and new energy sources. Students will develop critical thinking ability, competence to better assess risks and benefits, and skills that will lead them to be able to make informed decisions about technology-based matters. | Quantitative Data Analysis Natural Sciences & Mathematics Sector |
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| CHEM 2210-001 | Physical Chemistry I | Marsha Isack Lester | MWF 10:15 AM-11:14 AM | Introductory quantum mechanics, atomic and molecular structure, chemical bonding, and microscopic understanding of physical and chemical properties of molecules. | |||||||
| CHEM 2210-201 | Physical Chemistry I | T 12:00 PM-12:59 PM | Introductory quantum mechanics, atomic and molecular structure, chemical bonding, and microscopic understanding of physical and chemical properties of molecules. | ||||||||
| CHEM 2210-202 | Physical Chemistry I | W 5:15 PM-6:14 PM | Introductory quantum mechanics, atomic and molecular structure, chemical bonding, and microscopic understanding of physical and chemical properties of molecules. | ||||||||
| CHEM 2210-203 | Physical Chemistry I | W 5:15 PM-6:14 PM | Introductory quantum mechanics, atomic and molecular structure, chemical bonding, and microscopic understanding of physical and chemical properties of molecules. | ||||||||
| CHEM 2210-204 | Physical Chemistry I | M 5:15 PM-6:14 PM | Introductory quantum mechanics, atomic and molecular structure, chemical bonding, and microscopic understanding of physical and chemical properties of molecules. | ||||||||
| CHEM 2410-402 | Principles of Organic Chemistry I | David M Chenoweth | TR 10:15 AM-11:44 AM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411402 | ||||||
| CHEM 2410-403 | Principles of Organic Chemistry I | Jeffrey D Winkler | MW 12:00 PM-1:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411403 | ||||||
| CHEM 2410-420 | Principles of Organic Chemistry I | T 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411420 | |||||||
| CHEM 2410-421 | Principles of Organic Chemistry I | T 1:45 PM-2:44 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411421 | |||||||
| CHEM 2410-422 | Principles of Organic Chemistry I | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411422 | |||||||
| CHEM 2410-423 | Principles of Organic Chemistry I | T 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411423 | |||||||
| CHEM 2410-424 | Principles of Organic Chemistry I | F 3:30 PM-4:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411424 | |||||||
| CHEM 2410-425 | Principles of Organic Chemistry I | W 8:30 AM-9:29 AM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411425 | |||||||
| CHEM 2410-426 | Principles of Organic Chemistry I | W 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411426 | |||||||
| CHEM 2410-427 | Principles of Organic Chemistry I | T 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411427 | |||||||
| CHEM 2410-430 | Principles of Organic Chemistry I | T 3:30 PM-4:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411430 | |||||||
| CHEM 2410-431 | Principles of Organic Chemistry I | M 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411431 | |||||||
| CHEM 2410-432 | Principles of Organic Chemistry I | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411432 | |||||||
| CHEM 2410-433 | Principles of Organic Chemistry I | F 1:45 PM-2:44 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411433 | |||||||
| CHEM 2410-434 | Principles of Organic Chemistry I | T 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411434 | |||||||
| CHEM 2410-435 | Principles of Organic Chemistry I | F 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411435 | |||||||
| CHEM 2410-436 | Principles of Organic Chemistry I | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411436 | |||||||
| CHEM 2410-437 | Principles of Organic Chemistry I | M 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411437 | |||||||
| CHEM 2410-601 | Principles of Organic Chemistry I | Simon Tong | T 7:00 PM-9:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | |||||||
| CHEM 2411-402 | Principles of Organic Chemistry I with Laboratory | David M Chenoweth | TR 10:15 AM-11:44 AM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410402 | ||||||
| CHEM 2411-403 | Principles of Organic Chemistry I with Laboratory | Jeffrey D Winkler | MW 12:00 PM-1:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410403 | ||||||
| CHEM 2411-420 | Principles of Organic Chemistry I with Laboratory | T 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410420 | |||||||
| CHEM 2411-421 | Principles of Organic Chemistry I with Laboratory | T 1:45 PM-2:44 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410421 | |||||||
| CHEM 2411-422 | Principles of Organic Chemistry I with Laboratory | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410422 | |||||||
| CHEM 2411-423 | Principles of Organic Chemistry I with Laboratory | T 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410423 | |||||||
| CHEM 2411-424 | Principles of Organic Chemistry I with Laboratory | F 3:30 PM-4:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410424 | |||||||
| CHEM 2411-425 | Principles of Organic Chemistry I with Laboratory | W 8:30 AM-9:29 AM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410425 | |||||||
| CHEM 2411-426 | Principles of Organic Chemistry I with Laboratory | W 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410426 | |||||||
| CHEM 2411-427 | Principles of Organic Chemistry I with Laboratory | T 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410427 | |||||||
| CHEM 2411-430 | Principles of Organic Chemistry I with Laboratory | T 3:30 PM-4:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410430 | |||||||
| CHEM 2411-431 | Principles of Organic Chemistry I with Laboratory | M 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410431 | |||||||
| CHEM 2411-432 | Principles of Organic Chemistry I with Laboratory | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410432 | |||||||
| CHEM 2411-433 | Principles of Organic Chemistry I with Laboratory | F 1:45 PM-2:44 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410433 | |||||||
| CHEM 2411-434 | Principles of Organic Chemistry I with Laboratory | T 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410434 | |||||||
| CHEM 2411-435 | Principles of Organic Chemistry I with Laboratory | F 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410435 | |||||||
| CHEM 2411-436 | Principles of Organic Chemistry I with Laboratory | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410436 | |||||||
| CHEM 2411-437 | Principles of Organic Chemistry I with Laboratory | M 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410437 | |||||||
| CHEM 2412-001 | Principles of Organic Chemistry I Laboratory | Alyssa Bohen | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | ||||||||
| CHEM 2412-110 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-111 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-112 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-113 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-120 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-121 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-122 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-123 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-130 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-131 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-132 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-133 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-140 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-141 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-142 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-143 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-150 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-151 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-152 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-153 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-160 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-161 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-162 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-163 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-170 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-171 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-172 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2412-173 | Principles of Organic Chemistry I Laboratory | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||||
| CHEM 2420-401 | Principles of Organic Chemistry II | Amos Brittain Smith | TR 3:30 PM-4:59 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421401 | ||||||
| CHEM 2420-410 | Principles of Organic Chemistry II | R 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421410 | |||||||
| CHEM 2420-411 | Principles of Organic Chemistry II | W 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421411 | |||||||
| CHEM 2420-412 | Principles of Organic Chemistry II | W 1:45 PM-2:44 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421412 | |||||||
| CHEM 2420-413 | Principles of Organic Chemistry II | T 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421413 | |||||||
| CHEM 2420-414 | Principles of Organic Chemistry II | R 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421414 | |||||||
| CHEM 2421-401 | Principles of Organic Chemistry II with Laboratory | Amos Brittain Smith | TR 3:30 PM-4:59 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420401 | ||||||
| CHEM 2421-410 | Principles of Organic Chemistry II with Laboratory | R 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420410 | |||||||
| CHEM 2421-411 | Principles of Organic Chemistry II with Laboratory | W 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420411 | |||||||
| CHEM 2421-412 | Principles of Organic Chemistry II with Laboratory | W 1:45 PM-2:44 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420412 | |||||||
| CHEM 2421-413 | Principles of Organic Chemistry II with Laboratory | T 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420413 | |||||||
| CHEM 2421-414 | Principles of Organic Chemistry II with Laboratory | R 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420414 | |||||||
| CHEM 2422-001 | Principles of Organic Chemistry II Laboratory | Alyssa Bohen | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | ||||||||
| CHEM 2422-110 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-111 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-112 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-113 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-120 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-121 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-122 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-123 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-130 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-131 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-132 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2422-133 | Principles of Organic Chemistry II Laboratory | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||||
| CHEM 2451-601 | Experimental Organic Chemistry A | Simon Tong | R 5:15 PM-6:14 PM | A basic laboratory course in which both the theoretical and practical aspects of a variety of organic reactions and multistep syntheses are emphasized. Modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. CHEM 2410 is a required co-requisite for CHEM 2451 for Penn undergraduate students. LPS students may take CHEM 2410 as a pre-requisite or a co-requisite to CHEM 2451. | |||||||
| CHEM 2451-602 | Experimental Organic Chemistry A | Simon Tong | R 6:15 PM-10:14 PM | A basic laboratory course in which both the theoretical and practical aspects of a variety of organic reactions and multistep syntheses are emphasized. Modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. CHEM 2410 is a required co-requisite for CHEM 2451 for Penn undergraduate students. LPS students may take CHEM 2410 as a pre-requisite or a co-requisite to CHEM 2451. | |||||||
| CHEM 2460-001 | Advanced Synthesis and Spectroscopy Laboratory | Monica Mccallum | M 3:30 PM-4:29 PM | Advanced laboratory work on the synthesis, structure, and properties of organic and inorganic compounds. Infrared, ultraviolet, and nuclear magnetic resonance spectroscopy. Lectures cover the theoretical basis and applications of modern spectroscopic methods. | |||||||
| CHEM 2460-101 | Advanced Synthesis and Spectroscopy Laboratory | Advanced laboratory work on the synthesis, structure, and properties of organic and inorganic compounds. Infrared, ultraviolet, and nuclear magnetic resonance spectroscopy. Lectures cover the theoretical basis and applications of modern spectroscopic methods. | |||||||||
| CHEM 2460-102 | Advanced Synthesis and Spectroscopy Laboratory | Advanced laboratory work on the synthesis, structure, and properties of organic and inorganic compounds. Infrared, ultraviolet, and nuclear magnetic resonance spectroscopy. Lectures cover the theoretical basis and applications of modern spectroscopic methods. | |||||||||
| CHEM 2460-103 | Advanced Synthesis and Spectroscopy Laboratory | Advanced laboratory work on the synthesis, structure, and properties of organic and inorganic compounds. Infrared, ultraviolet, and nuclear magnetic resonance spectroscopy. Lectures cover the theoretical basis and applications of modern spectroscopic methods. | |||||||||
| CHEM 2510-001 | Principles of Biological Chemistry | MWF 9:00 AM-9:59 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-201 | Principles of Biological Chemistry | T 8:30 AM-9:29 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-202 | Principles of Biological Chemistry | T 5:15 PM-6:14 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-203 | Principles of Biological Chemistry | T 5:15 PM-6:14 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-204 | Principles of Biological Chemistry | W 5:15 PM-6:14 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-205 | Principles of Biological Chemistry | W 5:15 PM-6:14 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-206 | Principles of Biological Chemistry | W 5:15 PM-6:14 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-207 | Principles of Biological Chemistry | W 5:15 PM-6:14 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2510-208 | Principles of Biological Chemistry | R 8:30 AM-9:29 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 2420 or CHEM 2425. | ||||||||
| CHEM 2610-001 | Inorganic Chemistry I | Patrick Walsh | TR 1:45 PM-3:14 PM | An introductory survey of the bonding, structure, and reactions of important metal and nonmetal compounds. | |||||||
| CHEM 2610-201 | Inorganic Chemistry I | M 12:00 PM-12:59 PM | An introductory survey of the bonding, structure, and reactions of important metal and nonmetal compounds. | ||||||||
| CHEM 2610-203 | Inorganic Chemistry I | M 5:15 PM-6:14 PM | An introductory survey of the bonding, structure, and reactions of important metal and nonmetal compounds. | ||||||||
| CHEM 5210-001 | Statistical Mechanics I | Tobias Baumgart | MW 10:15 AM-11:44 AM | Principles of statistical mechanics with applications to systems of chemical interest. | |||||||
| CHEM 5230-001 | Quantum Chemistry I | Andrew M Rappe | MW 1:45 PM-3:14 PM | The principles of quantum theory and applications to atomic systems. | |||||||
| CHEM 5412-001 | Physical Organic Chemistry I | Marisa Kozlowski | MW 8:30 AM-9:59 AM | Physical Organic I is an introduction to advanced physical organic chemistry. Mechanism drawing with arrows to denote the movement of an electron density will be a unifying theme. The course is divided into two parts. The first part will be an overview of organic bonding (basic molecular orbital theory, anomeric effect), structure (bond lengths, bond angles, conformational analysis), and properties (electronegativity, nucleophilicity, electrophilicity, acidity, basicity). The second part will be a brief overview of current computational methods including molecular mechanics, Hartree Fock, and density functional calculations. The focus will be on practical applications rather than the theory behind the calculations; students will be able to assess which calculations are most appropriate for a given task. | |||||||
| CHEM 5431-001 | Advanced Organic Chemistry 1 | Dirk Trauner | MW 10:15 AM-11:14 AM | This course focuses on organic reactions, reaction mechanisms, and the strategic applications of these reactions in organic synthesis. Topics include symmetry, stereochemistry, stereoselectivity, olefinations, olefin metathesis, transition-metal catalyzed cross couplings, cycloadditions, electrocyclizations, sigmatropic rearrangements, and other pericycylic reactions. The material will be illustrated by applications in multistep chemical synthesis. Based on this course, students should be able to read the modern literature, develop independent research proposals in organic chemistry, and succeed in graduate school. | |||||||
| CHEM 5432-001 | Advanced Organic Chemistry 2 | Monica Mccallum | MWF 10:15 AM-11:14 AM | This half-semester course continues to emphasize organic reactions, reaction mechanisms, and their strategic applications in complex molecule synthesis. Topics covered include oxidations, reductions, carbon-carbon bond formations, and strategic applications of protecting groups. | |||||||
| CHEM 5510-001 | Biological Chemistry I | Anna Elizabeth Rhoades | TR 8:30 AM-9:59 AM | Structure, dynamics, and function of biological macromolecules. Properties of macromolecular assemblies, membranes and their compartments. (Formerly, CHEM 450-I). | |||||||
| CHEM 5550-401 | Macromolecular Crystallography: Methods and Applications | Ronen Marmorstein | This is an introductory course on methods and applications of macromolecular structure determination using X-ray crystallography. The course will be broken up into three parts: 1) Principles of X-ray crystallography involving didactic lectures on the technique with weekly problem sets; 2) Workshops on macromolecular structure determination involving hands-on experience with the technology; 3) Student "journal club" presentations on current high impact publications involving X-ray crystal structure determination. Prerequisite: Undergraduate calculus and trigonometry. | BMB5540401 | |||||||
| CHEM 5640-001 | Organometallics | Karen Ila Goldberg Patrick Walsh |
This course is focused on molecular species that contain metal-carbon bonds, and the role of these compounds in catalytic processes and organic synthesis. Aspects of the synthesis, structure and reactivity of important classes of organometallic compounds such as metallo alkyl, aryl, alkene, alkylidene and alkylidyne complexes are surveyed for the d and f block metals. Emphasis is placed on general patterns of reactivity and recurring themes for reaction mechanisms. | ||||||||
| CHEM 6010-001 | Chemical Information | Judith N Currano | CANCELED | This course examines the structure and organization of the chemical literature and introduces techniques of searching this literature, focusing on the logic and thought processes necessary for effective information retrieval. Each technique is illustrated using information tools available at the University of Pennsylvania, and we take an "under the hood" look at the organization and functionality of each tool introduced. Students should choose a course section based on their preferred area of chemistry research: organic, inorganic, biological, and physical chemistry; all four sections are taught at a level appropriate for graduate students and advanced undergraduates. Topics vary by section, but all students learn the basics of subject, author, structure, and reaction searching, and a unit on ethics in publication and scholarly communication completes the course. | |||||||
| CHEM 6010-004 | Chemical Information | Judith N Currano | CANCELED | This course examines the structure and organization of the chemical literature and introduces techniques of searching this literature, focusing on the logic and thought processes necessary for effective information retrieval. Each technique is illustrated using information tools available at the University of Pennsylvania, and we take an "under the hood" look at the organization and functionality of each tool introduced. Students should choose a course section based on their preferred area of chemistry research: organic, inorganic, biological, and physical chemistry; all four sections are taught at a level appropriate for graduate students and advanced undergraduates. Topics vary by section, but all students learn the basics of subject, author, structure, and reaction searching, and a unit on ethics in publication and scholarly communication completes the course. | |||||||
| CHEM 6011-001 | Chemical Information for Biological Chemists | Judith N Currano | This course examines the structure and organization of the chemical literature in the field of biological chemistry and introduces techniques used to search this literature, focusing on the logic and thought processes necessary for effective information retrieval. The course takes an "under the hood" look at the organization and functionality of a variety of different databases and search systems, and, while learning information retrieval skills, students gradually become familiar with the structure of the chemical literature, the purposes of each genre, and the steps of the scientific publication process. Search skills are taught using a combination of lecture and laboratory activities, and students learn advanced text-based search techniques, protein and nucleotide sequence and structure similarity search strategies, basic substructure and reaction search strategies, and methods of retrieving property information and profiling substances by their properties. Students will also undertake a detailed examination protein and small molecule crystal structure databases. In addition to search skills, the students are exposed to strategies for choosing a publication venue; the use and limitations of citation information when evaluating authors, institutions, and journals; and the basic principles behind peer review. The semester closes with a brief introduction to personal data management and an in-depth discussion of the ethics surrounding scientific communication. The course is taught at a level appropriate for graduate students and advanced undergraduates and requires permission of the instructor to register. Undergraduate students should have taken two semesters of organic chemistry prior to enrolling. Students should have an interest in biochemistry or molecular biology research. |
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| CHEM 6014-001 | Chemical Information for Physical Chemists | Judith N Currano | F 10:15 AM-11:14 AM | This course examines the structure and organization of the chemical literature in the fields of physical and theoretical chemistry chemistry and introduces techniques used to search this literature, focusing on the logic and thought processes necessary for effective information retrieval. The course takes an "under the hood" look at the organization and functionality of a variety of different databases and search systems, and, while learning information retrieval skills, students gradually become familiar with the structure of the chemical literature, the purposes of each genre, and the steps of the scientific publication process. Because of the diversity of research foci in physical and theoretical chemistry, the course is survey in nature, devoting time to a wide variety of tools and search strategies and demonstrating Penn’s collections in chemistry, mathematics, physics, materials science, and engineering. In addition to teaching search skills, we briefly examine methods of choosing a publication venue and the use and limitations of citation information when evaluating authors, institutions, and journals. The semester closes with a brief introduction to personal data management and a discussion of the ethics surrounding scientific communication. The course is taught at a level appropriate for graduate students and advanced undergraduates and requires permission of the instructor to register. Undergraduate students should have taken two semesters of organic chemistry prior to enrolling. Students should have an interest in physical or theoretical chemistry research. |
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| CHEM 7210-001 | Mathematics for Chemistry | Abraham Nitzan | TR 10:15 AM-11:44 AM | This course examines the basic mathematics needed for physical chemistry, including (but not limited to) a brief review of linear algebra, Fourier transforms, delta functions, optimization, and the residue theorem. Depending on the year, selected other topics will also be included. | |||||||
| CHEM 7460-630 | Intermediate Organic Chemistry | Christopher B Kelly | M 5:15 PM-8:14 PM | This course will include a review of basic reaction mechanisms, stereoelectronic effects, functional groups and acid-base chemistry. The course will emphasize the writing of mechanisms using the curved-arrow notation and organic reactions. Bonding and electronic structure theories and more involved mechanisms will be discussed. Students are expected to have a good working knowledge of reactions, functional groups, stereochemistry and mechanisms from undergraduate organic chemistry. Students will be expected to review basic concepts in Organic Chemistry and spectroscopy. The course will include lectures and recitations, and students are expected to attend and participate. | Perm Needed From Department | ||||||
| CHEM 7460-631 | Intermediate Organic Chemistry | Christopher B Kelly | F 7:00 PM-7:59 PM | This course will include a review of basic reaction mechanisms, stereoelectronic effects, functional groups and acid-base chemistry. The course will emphasize the writing of mechanisms using the curved-arrow notation and organic reactions. Bonding and electronic structure theories and more involved mechanisms will be discussed. Students are expected to have a good working knowledge of reactions, functional groups, stereochemistry and mechanisms from undergraduate organic chemistry. Students will be expected to review basic concepts in Organic Chemistry and spectroscopy. The course will include lectures and recitations, and students are expected to attend and participate. | Perm Needed From Department |
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