| Title | Instructors | Location | Time | Description | Cross listings | Fulfills | Registration notes | Syllabus | Syllabus URL | ||
|---|---|---|---|---|---|---|---|---|---|---|---|
| CHEM 0250-301 | Structural Biology | Jeffery G. Saven | CHEM B13 | TR 8:30 AM-9:59 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 | |||||
| CHEM 1012-001 | General Chemistry I | Thomas E Mallouk | CHEM 102 | MWF 8:30 AM-9:29 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 1012-201 | General Chemistry I | CHEM B13 | 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 1012-202 | General Chemistry I | CHEM B13 | F 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 1012-203 | General Chemistry I | DRLB A4 | 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 1012-204 | General Chemistry I | CHEM B13 | 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 1021-601 | Introduction to General Chemistry II | Marta Guron | DRLB A6 | R 5:15 PM-8:14 PM | CHEM 1021 will be the second course in a two-semester sequence in general chemistry, where an introductory foundation in the energetic and dynamic nature of chemical reactivity will be developed. The course will survey general principles of thermodynamics, phase transitions, equilibrium, acid/base chemistry, and chemical kinetics as applied to elementary chemical reactions. Using this foundation, structure and function of organic compounds and solid-state structure will be surveyed upon which the former fundamental principles will be deployed to predict reactivity/stability. | Physical World Sector | |||||
| CHEM 1021-602 | Introduction to General Chemistry II | Marta Guron | CHEM 119 | R 8:15 PM-9:14 PM | CHEM 1021 will be the second course in a two-semester sequence in general chemistry, where an introductory foundation in the energetic and dynamic nature of chemical reactivity will be developed. The course will survey general principles of thermodynamics, phase transitions, equilibrium, acid/base chemistry, and chemical kinetics as applied to elementary chemical reactions. Using this foundation, structure and function of organic compounds and solid-state structure will be surveyed upon which the former fundamental principles will be deployed to predict reactivity/stability. | Physical World Sector | |||||
| CHEM 1022-001 | General Chemistry II | Anthony Cirri | CHEM 102 | MWF 10:15 AM-11:14 AM | 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 1022-002 | General Chemistry II | Silvia Porello | CHEM 102 | MWF 12:00 PM-12:59 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 1022-003 | General Chemistry II | Silvia Porello | CHEM 102 | MWF 3:30 PM-4:29 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 1022-004 | General Chemistry II | Sean P. Holleran Troy Wymore |
MOOR 216 | MWF 10:15 AM-11:14 AM | 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 1022-005 | General Chemistry II | Sean P. Holleran Troy Wymore |
MOOR 212 | MWF 12:00 PM-12:59 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 1022-210 | General Chemistry II | CHEM 514 | R 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 1022-211 | General Chemistry II | CHEM 514 | R 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 1022-212 | General Chemistry II | TOWN 311 | 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 1022-213 | General Chemistry II | VAGL 2000 | F 8:30 AM-9:59 AM | 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 1022-220 | General Chemistry II | TOWN 313 | 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 1022-221 | General Chemistry II | VAGL 2000 | R 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 1022-222 | General Chemistry II | DRLB 3N1H | 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 1022-230 | General Chemistry II | VAGL 2000 | R 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 1022-231 | General Chemistry II | VAGL 2000 | R 5:15 PM-6:44 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 1022-232 | General Chemistry II | CHEM 514 | R 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 1022-233 | General Chemistry II | CANCELED | 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 1022-240 | General Chemistry II | Jack Granite Joel Hayford Sean P. Holleran Shrey Kalpeshkumar Patel Troy Wymore |
TOWN 315 | R 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 1022-241 | General Chemistry II | Jack Granite Joel Hayford Sean P. Holleran Shrey Kalpeshkumar Patel Troy Wymore |
TOWN 315 | R 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 1022-242 | General Chemistry II | Jack Granite Joel Hayford Sean P. Holleran Shrey Kalpeshkumar Patel Troy Wymore |
DRLB 3C2 | 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 1022-250 | General Chemistry II | Jack Granite Joel Hayford Sean P. Holleran Shrey Kalpeshkumar Patel Troy Wymore |
NRN 00 | R 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 1022-251 | General Chemistry II | Jack Granite Joel Hayford Sean P. Holleran Shrey Kalpeshkumar Patel Troy Wymore |
NRN 00 | R 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 1022-252 | General Chemistry II | Jack Granite Joel Hayford Sean P. Holleran Shrey Kalpeshkumar Patel Troy Wymore |
CHEM 109 | 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 | CHEM 102 | T 3:30 PM-4:29 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 1101-154 | General Chemistry Laboratory I | NRN 00 | W 12:00 PM-2:59 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 1101-155 | General Chemistry Laboratory I | NRN 00 | CANCELED | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-156 | General Chemistry Laboratory I | NRN 00 | CANCELED | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-164 | General Chemistry Laboratory I | NRN 00 | W 3:30 PM-6:29 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 1101-165 | General Chemistry Laboratory I | NRN 00 | W 3:30 PM-6:29 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 1101-166 | General Chemistry Laboratory I | NRN 00 | W 3:30 PM-6:29 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 1101-174 | General Chemistry Laboratory I | NRN 00 | R 10:15 AM-1:14 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 1101-175 | General Chemistry Laboratory I | NRN 00 | CANCELED | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-176 | General Chemistry Laboratory I | NRN 00 | CANCELED | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. | Quantitative Data Analysis | ||||||
| CHEM 1101-184 | General Chemistry Laboratory I | NRN 00 | R 1:45 PM-4:44 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 1101-185 | General Chemistry Laboratory I | NRN 00 | R 1:45 PM-4:44 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 1101-186 | General Chemistry Laboratory I | NRN 00 | R 1:45 PM-4:44 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 | DRLB A1 | M 3:30 PM-4:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | |||||
| CHEM 1102-002 | General Chemistry Laboratory II | Jenine Maeyer | CHEM 102 | M 5:15 PM-6:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | |||||
| CHEM 1102-101 | General Chemistry Laboratory II | NRN 00 | M 4:45 PM-7:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-102 | General Chemistry Laboratory II | NRN 00 | M 4:45 PM-7:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-103 | General Chemistry Laboratory II | NRN 00 | M 4:45 PM-7:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-104 | General Chemistry Laboratory II | NRN 00 | M 4:45 PM-7:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-105 | General Chemistry Laboratory II | NRN 00 | M 4:45 PM-7:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-106 | General Chemistry Laboratory II | NRN 00 | CANCELED | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-111 | General Chemistry Laboratory II | NRN 00 | T 10:15 AM-1:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-112 | General Chemistry Laboratory II | NRN 00 | T 10:15 AM-1:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-113 | General Chemistry Laboratory II | NRN 00 | T 10:15 AM-1:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-114 | General Chemistry Laboratory II | NRN 00 | T 12:00 PM-2:59 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-115 | General Chemistry Laboratory II | NRN 00 | T 12:00 PM-2:59 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-116 | General Chemistry Laboratory II | NRN 00 | T 12:00 PM-2:59 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-121 | General Chemistry Laboratory II | NRN 00 | T 1:45 PM-4:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-122 | General Chemistry Laboratory II | NRN 00 | T 1:45 PM-4:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-123 | General Chemistry Laboratory II | NRN 00 | T 1:45 PM-4:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-124 | General Chemistry Laboratory II | NRN 00 | T 3:30 PM-6:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-125 | General Chemistry Laboratory II | NRN 00 | T 3:30 PM-6:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-126 | General Chemistry Laboratory II | NRN 00 | T 3:30 PM-6:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-131 | General Chemistry Laboratory II | NRN 00 | T 5:15 PM-8:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-132 | General Chemistry Laboratory II | NRN 00 | T 5:15 PM-8:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-133 | General Chemistry Laboratory II | NRN 00 | T 5:15 PM-8:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-134 | General Chemistry Laboratory II | NRN 00 | T 6:30 PM-9:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-135 | General Chemistry Laboratory II | NRN 00 | T 6:30 PM-9:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-151 | General Chemistry Laboratory II | NRN 00 | W 12:00 PM-2:59 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-152 | General Chemistry Laboratory II | NRN 00 | W 12:00 PM-2:59 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-153 | General Chemistry Laboratory II | NRN 00 | CANCELED | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-161 | General Chemistry Laboratory II | NRN 00 | W 3:30 PM-6:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-162 | General Chemistry Laboratory II | NRN 00 | W 3:30 PM-6:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-163 | General Chemistry Laboratory II | NRN 00 | W 3:30 PM-6:29 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-171 | General Chemistry Laboratory II | NRN 00 | R 10:15 AM-1:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-172 | General Chemistry Laboratory II | NRN 00 | R 10:15 AM-1:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-173 | General Chemistry Laboratory II | NRN 00 | R 10:15 AM-1:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-181 | General Chemistry Laboratory II | NRN 00 | R 1:45 PM-4:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-182 | General Chemistry Laboratory II | NRN 00 | R 1:45 PM-4:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-183 | General Chemistry Laboratory II | NRN 00 | R 1:45 PM-4:44 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | ||||||
| CHEM 1102-601 | General Chemistry Laboratory II | Jenine Maeyer | CHEM B13 | T 5:15 PM-6:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | |||||
| CHEM 1102-602 | General Chemistry Laboratory II | Jenine Maeyer | CHEM 119 | T 6:15 PM-9:14 PM | Continuation of CHEM 1101: General Chemistry Laboratory I | Quantitative Data Analysis | |||||
| CHEM 1161-001 | Honors Chemistry II | Daniel J Mindiola | CHEM B13 | TR 1:45 PM-3:14 PM | An advanced course for students who have had very strong background in Chemistry in High School (AP, IB, or equivalent). Advanced material from the general chemistry curriculum will be covered in the context topics selected from current research areas. A continuation of CHEM 1151: Honors Chemistry I, CHEM 1161: Honors Chemistry II will focus on topics in biochemistry and biophysical chemistry relating to thermodynamics, equilibrium, kinetics, and electrochemistry. Prerequisite: Advanced High School Chemistry (AP or equivalent). | Physical World Sector | |||||
| CHEM 1161-201 | Honors Chemistry II | CHEM B13 | F 8:30 AM-9:29 AM | An advanced course for students who have had very strong background in Chemistry in High School (AP, IB, or equivalent). Advanced material from the general chemistry curriculum will be covered in the context topics selected from current research areas. A continuation of CHEM 1151: Honors Chemistry I, CHEM 1161: Honors Chemistry II will focus on topics in biochemistry and biophysical chemistry relating to thermodynamics, equilibrium, kinetics, and electrochemistry. Prerequisite: Advanced High School Chemistry (AP or equivalent). | Physical World Sector | ||||||
| CHEM 1161-202 | Honors Chemistry II | CHEM 119 | F 3:30 PM-4:29 PM | An advanced course for students who have had very strong background in Chemistry in High School (AP, IB, or equivalent). Advanced material from the general chemistry curriculum will be covered in the context topics selected from current research areas. A continuation of CHEM 1151: Honors Chemistry I, CHEM 1161: Honors Chemistry II will focus on topics in biochemistry and biophysical chemistry relating to thermodynamics, equilibrium, kinetics, and electrochemistry. Prerequisite: Advanced High School Chemistry (AP or equivalent). | Physical World Sector | ||||||
| CHEM 2220-001 | Physical Chemistry II | Zahra Fakhraai | DRLB A2 | MW 10:15 AM-11:44 AM | Continuation of CHEM 2210: Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | ||||||
| CHEM 2220-201 | Physical Chemistry II | CHEM 119 | F 10:15 AM-11:14 AM | Continuation of CHEM 2210: Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | |||||||
| CHEM 2220-202 | Physical Chemistry II | CHEM B13 | F 1:45 PM-2:44 PM | Continuation of CHEM 2210: Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | |||||||
| CHEM 2220-203 | Physical Chemistry II | CHEM 109 | F 9:00 AM-9:59 AM | Continuation of CHEM 2210: Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | |||||||
| CHEM 2230-001 | Experimental Physical Chemistry I | Anthony Cirri | VAGL 2000 | F 12:00 PM-12:59 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Students are required to have completed Chem2210 prior to enrolling in Chem2230. | ||||||
| CHEM 2230-101 | Experimental Physical Chemistry I | NRN 00 | MW 1:45 PM-5:44 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Students are required to have completed Chem2210 prior to enrolling in Chem2230. | |||||||
| CHEM 2230-102 | Experimental Physical Chemistry I | NRN 00 | TR 1:45 PM-5:44 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Students are required to have completed Chem2210 prior to enrolling in Chem2230. | |||||||
| CHEM 2230-103 | Experimental Physical Chemistry I | NRN 00 | TR 9:00 AM-12:59 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Students are required to have completed Chem2210 prior to enrolling in Chem2230. | |||||||
| CHEM 2410-401 | Principles of Organic Chemistry I | Troy Wymore | CHEM 102 | MWF 1:45 PM-2:44 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411401 | |||||
| CHEM 2410-410 | Principles of Organic Chemistry I | DRLB A4 | W 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411410 | ||||||
| CHEM 2410-411 | Principles of Organic Chemistry I | Michael Mariano Disanto Troy Wymore |
CHEM 109 | R 3:30 PM-4:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411411 | |||||
| CHEM 2410-412 | Principles of Organic Chemistry I | Michael Mariano Disanto Troy Wymore |
LRSM AUD | R 5:15 PM-6:14 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411412 | |||||
| CHEM 2410-413 | Principles of Organic Chemistry I | CHEM 119 | R 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | CHEM2411413 | ||||||
| CHEM 2411-401 | Principles of Organic Chemistry I with Laboratory | Troy Wymore | CHEM 102 | MWF 1:45 PM-2:44 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410401 | |||||
| CHEM 2411-410 | Principles of Organic Chemistry I with Laboratory | DRLB A4 | W 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410410 | ||||||
| CHEM 2411-411 | Principles of Organic Chemistry I with Laboratory | Michael Mariano Disanto Troy Wymore |
CHEM 109 | R 3:30 PM-4:29 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410411 | |||||
| CHEM 2411-412 | Principles of Organic Chemistry I with Laboratory | Michael Mariano Disanto Troy Wymore |
LRSM AUD | 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. | CHEM2410412 | |||||
| CHEM 2411-413 | Principles of Organic Chemistry I with Laboratory | CHEM 119 | R 12:00 PM-12:59 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. Laboratory included. | CHEM2410413 | ||||||
| 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 | NRN 00 | M 8:30 AM-11:29 AM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-111 | Principles of Organic Chemistry I Laboratory | NRN 00 | M 8:30 AM-11:29 AM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-112 | Principles of Organic Chemistry I Laboratory | NRN 00 | M 8:30 AM-11:29 AM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-120 | Principles of Organic Chemistry I Laboratory | NRN 00 | T 8:30 AM-11:29 AM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-121 | Principles of Organic Chemistry I Laboratory | NRN 00 | T 8:30 AM-11:29 AM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-130 | Principles of Organic Chemistry I Laboratory | NRN 00 | M 3:30 PM-6:29 PM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-131 | Principles of Organic Chemistry I Laboratory | NRN 00 | M 3:30 PM-6:29 PM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-132 | Principles of Organic Chemistry I Laboratory | NRN 00 | M 3:30 PM-6:29 PM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2412-133 | Principles of Organic Chemistry I Laboratory | NRN 00 | M 3:30 PM-6:29 PM | Lab for CHEM 2411: Principles of Organic Chemistry I with Laboratory | |||||||
| CHEM 2420-401 | Principles of Organic Chemistry II | Aaron Clark | CHEM 102 | TR 10:15 AM-11:44 AM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421401 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM2420401 | ||||
| CHEM 2420-402 | Principles of Organic Chemistry II | Andrew Zahrt | MEYH B1 | MWF 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421402 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM2420402 | ||||
| CHEM 2420-403 | Principles of Organic Chemistry II | Aaron Clark | CHEM 102 | TR 8:30 AM-9:59 AM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421403 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM2420403 | ||||
| CHEM 2420-410 | Principles of Organic Chemistry II | CHEM 109 | W 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421410 | ||||||
| CHEM 2420-411 | Principles of Organic Chemistry II | WILL 421 | R 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421411 | ||||||
| CHEM 2420-412 | Principles of Organic Chemistry II | CHEM 109 | R 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421412 | ||||||
| CHEM 2420-413 | Principles of Organic Chemistry II | CHEM 514 | F 1:45 PM-2:44 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421413 | ||||||
| CHEM 2420-414 | Principles of Organic Chemistry II | DRLB 3C8 | T 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421414 | ||||||
| CHEM 2420-415 | Principles of Organic Chemistry II | LRSM AUD | F 9:00 AM-9:59 AM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421415 | ||||||
| CHEM 2420-421 | Principles of Organic Chemistry II | TOWN 307 | T 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421421 | ||||||
| CHEM 2420-422 | Principles of Organic Chemistry II | CHEM 102 | R 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421422 | ||||||
| CHEM 2420-423 | Principles of Organic Chemistry II | CANCELED | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421423 | |||||||
| CHEM 2420-425 | Principles of Organic Chemistry II | CHEM 109 | F 12:00 PM-12:59 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421425 | ||||||
| CHEM 2420-426 | Principles of Organic Chemistry II | CHEM 102 | R 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421426 | ||||||
| CHEM 2420-430 | Principles of Organic Chemistry II | DRLB 3C8 | R 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421430 | ||||||
| CHEM 2420-431 | Principles of Organic Chemistry II | DRLB A8 | F 12:00 PM-12:59 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421431 | ||||||
| CHEM 2420-432 | Principles of Organic Chemistry II | DRLB 3W2 | R 5:15 PM-6:14 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421432 | ||||||
| CHEM 2420-433 | Principles of Organic Chemistry II | DRLB A4 | W 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421433 | ||||||
| CHEM 2420-434 | Principles of Organic Chemistry II | DRLB A6 | F 3:30 PM-4:29 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421434 | ||||||
| CHEM 2420-435 | Principles of Organic Chemistry II | DRLB A8 | F 9:00 AM-9:59 AM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | CHEM2421435 | ||||||
| CHEM 2420-601 | Principles of Organic Chemistry II | Simon Tong | CHEM 514 | T 7:00 PM-9:59 PM | Continuation of CHEM 2410: Principles of Organic Chemistry I. | ||||||
| CHEM 2421-401 | Principles of Organic Chemistry II with Laboratory | Aaron Clark | CHEM 102 | TR 10:15 AM-11:44 AM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420401 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM2421401 | ||||
| CHEM 2421-402 | Principles of Organic Chemistry II with Laboratory | Andrew Zahrt | MEYH B1 | MWF 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420402 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM2421402 | ||||
| CHEM 2421-403 | Principles of Organic Chemistry II with Laboratory | Aaron Clark | CHEM 102 | TR 8:30 AM-9:59 AM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420403 | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM2421403 | ||||
| CHEM 2421-410 | Principles of Organic Chemistry II with Laboratory | CHEM 109 | W 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420410 | ||||||
| CHEM 2421-411 | Principles of Organic Chemistry II with Laboratory | WILL 421 | R 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 | CHEM 109 | R 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420412 | ||||||
| CHEM 2421-413 | Principles of Organic Chemistry II with Laboratory | CHEM 514 | F 1:45 PM-2:44 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420413 | ||||||
| CHEM 2421-414 | Principles of Organic Chemistry II with Laboratory | DRLB 3C8 | T 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420414 | ||||||
| CHEM 2421-415 | Principles of Organic Chemistry II with Laboratory | LRSM AUD | F 9:00 AM-9:59 AM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420415 | ||||||
| CHEM 2421-421 | Principles of Organic Chemistry II with Laboratory | TOWN 307 | T 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420421 | ||||||
| CHEM 2421-422 | Principles of Organic Chemistry II with Laboratory | CHEM 102 | R 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420422 | ||||||
| CHEM 2421-423 | Principles of Organic Chemistry II with Laboratory | CANCELED | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420423 | |||||||
| CHEM 2421-425 | Principles of Organic Chemistry II with Laboratory | CHEM 109 | F 12:00 PM-12:59 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420425 | ||||||
| CHEM 2421-426 | Principles of Organic Chemistry II with Laboratory | CHEM 102 | R 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420426 | ||||||
| CHEM 2421-430 | Principles of Organic Chemistry II with Laboratory | DRLB 3C8 | R 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420430 | ||||||
| CHEM 2421-431 | Principles of Organic Chemistry II with Laboratory | DRLB A8 | F 12:00 PM-12:59 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420431 | ||||||
| CHEM 2421-432 | Principles of Organic Chemistry II with Laboratory | DRLB 3W2 | R 5:15 PM-6:14 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420432 | ||||||
| CHEM 2421-433 | Principles of Organic Chemistry II with Laboratory | DRLB A4 | W 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420433 | ||||||
| CHEM 2421-434 | Principles of Organic Chemistry II with Laboratory | DRLB A6 | F 3:30 PM-4:29 PM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420434 | ||||||
| CHEM 2421-435 | Principles of Organic Chemistry II with Laboratory | DRLB A8 | F 9:00 AM-9:59 AM | Continuation of CHEM 2411: Principles of Organic Chemistry I with Laboratory | CHEM2420435 | ||||||
| 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 | NRN 00 | M 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-111 | Principles of Organic Chemistry II Laboratory | NRN 00 | M 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-112 | Principles of Organic Chemistry II Laboratory | NRN 00 | M 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-113 | Principles of Organic Chemistry II Laboratory | NRN 00 | M 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-120 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-121 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-122 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-123 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-130 | Principles of Organic Chemistry II Laboratory | NRN 00 | F 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-131 | Principles of Organic Chemistry II Laboratory | NRN 00 | F 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-132 | Principles of Organic Chemistry II Laboratory | NRN 00 | F 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-133 | Principles of Organic Chemistry II Laboratory | NRN 00 | F 8:30 AM-11:29 AM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-140 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-141 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-142 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-143 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-150 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-151 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-152 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-153 | Principles of Organic Chemistry II Laboratory | NRN 00 | T 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-160 | Principles of Organic Chemistry II Laboratory | NRN 00 | R 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-161 | Principles of Organic Chemistry II Laboratory | NRN 00 | R 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-162 | Principles of Organic Chemistry II Laboratory | NRN 00 | R 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-163 | Principles of Organic Chemistry II Laboratory | NRN 00 | R 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-170 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-171 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-172 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-173 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 12:00 PM-2:59 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-180 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-181 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-182 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2422-183 | Principles of Organic Chemistry II Laboratory | NRN 00 | W 3:30 PM-6:29 PM | Lab for CHEM 2421: Principles of Organic Chemistry II with Laboratory | |||||||
| CHEM 2452-601 | Experimental Organic Chemistry B | Simon Tong | CHEM 514 | 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 2420 is a required co-requisite for CHEM 2452 for Penn undergraduate students. LPS students may take CHEM 2420 (or equivalent) as a pre-requisite or a co-requisite to CHEM 2452. | ||||||
| CHEM 2452-602 | Experimental Organic Chemistry B | Simon Tong | RM REQ | 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 2420 is a required co-requisite for CHEM 2452 for Penn undergraduate students. LPS students may take CHEM 2420 (or equivalent) as a pre-requisite or a co-requisite to CHEM 2452. | ||||||
| CHEM 2510-001 | Principles of Biological Chemistry | Jonathan Fagan | CHEM 102 | TR 12:00 PM-1:29 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 2510-002 | Principles of Biological Chemistry | Ivan J. Dmochowski | LLAB 10 | TR 12:00 PM-1:29 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 2510-201 | Principles of Biological Chemistry | Jonathan Fagan Anastasiia Tsymbal |
CHEM B13 | W 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 | CHEM 514 | W 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 2510-203 | Principles of Biological Chemistry | Jonathan Fagan Anastasiia Tsymbal |
CHEM B13 | 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 2510-204 | Principles of Biological Chemistry | CHEM 514 | 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 | CHEM 109 | 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 2510-220 | Principles of Biological Chemistry | Briana Abigail Rose Czarnecki Ivan J. Dmochowski |
CHEM 109 | W 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 2510-221 | Principles of Biological Chemistry | CHEM 119 | 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 2510-222 | Principles of Biological Chemistry | CHEM 119 | W 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 2510-223 | Principles of Biological Chemistry | CHEM 119 | 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 2510-224 | Principles of Biological Chemistry | Briana Abigail Rose Czarnecki Ivan J. Dmochowski |
CHEM 119 | F 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 2510-225 | Principles of Biological Chemistry | CANCELED | 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 5220-001 | Statistical Mechanics II | Tobias Baumgart | VAGL 4000 | TR 10:15 AM-11:44 AM | A continuation of CHEM 5210. The course will emphasize the statistical mechanical description of systems in condensed phases. | ||||||
| CHEM 5260-001 | Chemical Dynamics | Abraham Nitzan | CHEM 117 | MW 10:15 AM-11:44 AM | Theoretical and experimental aspects of important rate processes in chemistry. | ||||||
| CHEM 5520-001 | Biological Chemistry II | Ernest J Petersson | DRLB A8 | TR 8:30 AM-9:59 AM | Physical and chemical description of macromolecular information transfer. Gene organization, replication, recombination, regulation and expression. (Formerly, CHEM 450-II). | ||||||
| CHEM 5571-001 | Enzyme Structure and Catalysis | David W Christianson | VAGL 2000 | TR 10:15 AM-11:44 AM | This course will outline the physical chemical basis for enzyme catalysis. The kinetics and thermodynamics of substrate and inhibitor interactions will be discussed prior to an examination of paradigm systems. Topics will include enzymes involved in the regulation of various cellular functions, including proteases, enzymes of natural products biosynthesis, and enzymes of epigenetics. | ||||||
| CHEM 5622-001 | Inorganic Chemistry II-B | Neil C Tomson | VAGL 2000 | MW 10:15 AM-11:44 AM | Material in this course will survey the synthesis, structure, and chemical properties of inorganic complexes from across the periodic table. The content will make use of thermodynamic and kinetic data, in conjunction with molecular orbital theory, to understand trends in bonding. Density functional theory calculations will be performed by students (no experience necessary) to support key concepts developed in the course. | ||||||
| CHEM 6012-001 | Chemical Information for Inorganic and Materials Chemists | Judith N. Currano | RM REQ | MW 1:45 PM-3:14 PM | This course examines the structure and organization of the chemical literature in the field of inorganic and materials 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; advanced substructure and composition searches, with an emphasis on organometallic and inorganic substances and crystal structure data; reaction search techniques, focusing on catalyzed reactions; and methods of retrieving property information and profiling substances and materials by their properties. 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 organometallic, inorganic, or materials chemistry. |
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| CHEM 6013-001 | Chemical Information for Organic Chemists | Judith N. Currano | RM REQ | MR 12:00 PM-1:30 PM | This course examines the structure and organization of the chemical literature in the field of organic 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, complex substructure and reaction search techniques, methods of using the literature for retrosynthetic analysis, and methods of retrieving property information and profiling substances by their properties. 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 organic chemistry research. |
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| CHEM 7080-001 | Modern Topics in Photochemistry | David M Chenoweth | CHEM 102 | T 5:15 PM-8:14 PM | This course, for graduate students, encompasses topics in fundamental and applied photochemistry and photophysics from the fields of organic chemistry and chemical biology. Key topics and concepts will include basic photophysics, interactions of light with matter, UV-Vis absorption and emission spectroscopy, energy transfer, kinetics/dynamics, Jablonski diagrams, electron transfer, organic photochemistry, and applications in organic chemistry and chemical biology. These topics and concepts will be covered in the context of frontier applications including synthetic chemistry organic photochemistry, molecular imaging, and optogenetic tools among others. | ||||||
| CHEM 7411-001 | Mass Spectrometry | CHEM 109 | TR 10:15 AM-11:44 AM | A Mass Spectrometry introductory course describing MS history, key ionization methods, mass analyzers, and MS methods for structure elucidation. The successful participant will be able to: Extract key information from stable isotope distribution patterns. Interpret key mass spectral fragment/product ions from a spectrum when acquired. Understand the differences between the major ionization sources. Understand the differences between the major mass analyzers. Determine reasonable ionization methods and analyzers for a sample or project. |
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| CHEM 7412-001 | NMR Spectroscopy | Jun Gu | CHEM 109 | TR 10:15 AM-11:44 AM | The course will focus on Essential Practical NMR for Chemistry. Topics will include structure elucidation with 1D and 2D NMR spectra, how to obtain high quality NMR spectra on spectrometers, data processing with NMR software such as MNova and TOPSPIN, multi-nuclei NMR including 31P, 19F, 11B, 15N and 2H etc., dynamic and kinetic NMR, and some techniques to provide high resolution 2D NMR spectra. | ||||||
| CHEM 7420-001 | Medicinal Chemistry and Drug Design I | Donna Huryn | CHEM 109 | TR 8:30 AM-9:59 AM | This course focuses on concepts and strategies in medicinal chemistry, and how it is applied to modern drug discovery and development. Topics include the drug discovery process, drug targets (GRCR?s, enzymes, channels etc.), physical chemistry of molecular interactions between drug and target, drug design, methods for hit and lead identification, lead optimization, chemical biology, natural products chemistry and combinatorial and diversity oriented synthesis. This course is geared to upper level undergraduate students in chemistry or biochemistry, and first year chemistry graduate students. A strong understanding of organic chemistry is required. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM7420001 | |||||
| CHEM 7421-001 | Medicinal Chemistry and Drug Design II | Donna Huryn | CHEM 109 | TR 8:30 AM-9:59 AM | This course focuses on concepts and strategies in medicinal chemistry, and how it is applied to modern drug discovery and development. Med Chem II builds on the material in Med Chem I and focuses on specific drug targets such as enzyme, G-protein coupled receptors, channels, nucleic acids and protein-protein interactions. Additionally, therapeutics area specific medicinal chemistry and drug discovery applications will be covered including anti-cancer agents, anti-infectives (antibiotics and anti-virals), and therapeutics to treat psychiatric and neurodegenerative disorders. This course is geared to upper level undergraduate students in chemistry or biochemistry and graduate students. Completion of Session I is a prerequisite. |
https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM7421001 | |||||
| CHEM 7451-001 | Chemical Neuroscience, A Synthetic Approach | Dirk Trauner | CHEM 119 | MW 10:15 AM-11:44 AM | Natural products such as tetrodotoxin, kainic acid ,and morphine have played a crucial role in the development of neuroscience. Using selected chemical syntheses as a framework, I will provide an introduction to neuroscience for chemists blended with a course in synthetic design. The structure function and synthesis of the following molecules will be analyzed: tetrodotoxin, saxitoxin, kainic acid, nicotine epibatidine, coniine, histrionicotoxin, strychnine, chrysanthemic acid, morphine, salvinorin A, THC, lysergic acid, huperzin A. galanthamine, cocaine, reserpine, capsaicin. resiniferatoxin, retinal, carotene menthol, camphor and the prostaglandins. The structure and function of important ion channels, GPCRs transporters, and enzymes and their ligands will be discussed using PyMol files. Goals: The goal of this course is to get as many synthetic chemists excited about neuroscience as possible (and a few neuroscientists stoked about synthesis). The importance of structural and pharmacological databases (PDB and IUPHAR, respectively)m and the usefulness of the Reaxys database (and SciFinder) for synthetic planning will be demonstrated. Requirements: A familiarity with synthetic organic chemistry and (named) chemical reactions a mastery of the Nernst equation and a willingness to learn more about one of the greatest if not the greatest scientific challenges of our times: to figure out how the human brain works. |
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| CHEM 7470-630 | Bioanalytical Chemistry | Tina Morgan Ross | CHEM B13 | R 5:15 PM-8:14 PM | This course will provide an introduction to methods and applications of contemporary biochemical techniques and instrumentation used for analysis of biomolecules, including proteins, DNA/RNA and metabolites. Topics covered will include chromatographic and electrophoresis, mass spectrometry, fluorescence microscopy for the detection, characterization and structural analysis of proteins, antibodies and nucleic acids. The focus of the course will be applications in bioanalysis, biopharmaceuticals and biotechnology. | ||||||
| CHEM 7480-001 | Parallel Microscale Experimentation and Generation of Predictive Models | Marisa Kozlowski | VAGL 2000 | MW 10:15 AM-11:44 AM | This course will cover the theory and experimental implementation of parallel microscale experimentation used in the development of chemical reaction processes with a focus on organic chemistry transformations. Coverage includes the precepts behind design of experiment as well as errors commonly encountered in parallel microscale experimentation. Basic machine learning principles will be covered with the goal of selecting appropriate substrate/catalyst selection and generating predictive models using RDKit and Python. There is a laboratory component which may extend outside of listed class hours. | ||||||
| CHEM 7510-001 | Chemical Biology of Drug Discovery | Megan L Matthews | VAGL 2000 | TR 10:15 AM-11:44 AM | This course will introduce topics in Chemical Biology and pharmacology and how they are applied for both basic and translational research. The course is focused on how basic science technology can be applied to discover a drug. The main components include: (1) selection of a disease with a focus on rare diseases (2) selection of a drug target, and (3) determining whether or not a small molecule interaction with that target can be expected to produce a therapeutic response. Key concepts of small molecule drug discovery are discussed throughout the course. Key technologies such as chemical proteomics and targeted degradation are covered. The advantages and disadvantages of therapeutic small molecules versus biologics will be discussed. | ||||||
| CHEM 7620-001 | X-ray I | Michael R Gau | CHEM 109 | TR 1:45 PM-3:14 PM | An introduction to the theory and practice of small molecule structure determination by X-ray crystallography. Topics discussed include point group and space group symmetry, structure factor theory, data collection methodology and a survey of solution methods. The course will include case studies of real-world structure determinations and interpreting X-ray structures. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM7620001 | |||||
| CHEM 7630-001 | X-ray II | Michael R Gau | CHEM 109 | TR 1:45 PM-3:14 PM | A continuation of X-ray I. This course will focus on the practical component of X-ray crystallography. Students will use crystallographic software (OLEX2, CrysAlisPRO, ShelX suite) to solve, refine, and finish small molecule crystal structures. These will include case studies and crystallographic problems such as the various types of disorder and twinning. | https://coursesintouch.apps.upenn.edu/cpr/jsp/fast.do?webService=syll&t=202510&c=CHEM7630001 | |||||
| CHEM 7640-001 | Materials Chemistry | Christopher B. Murray | CHEM 119 | TR 10:15 AM-11:44 AM | This course will provide an introduction of structure-property relationships in materials chemistry on length scales from atomic dimension up to the microscale and then draw on examples of Chemical design for "Energy and Environmental Sustainability." We will introduce the "12 Principles of Green Chemistry" and "12 Principles of Green Engineering" as a guide to modern materials chemistry design and follow a trajectory that proceeds with increasing length scales of ordering in the solid state. We will introduce techniques of x-ray, neutron, electron, and ion beam based scattering, real space imaging and spectroscopies and use these to explore non-crystalline materials (amorphous, glasses, and time permitting quasicrystals and aperiodic systems) and crystalline solids. Studies will proceed from atomic scales through nanoscale, mesoscale, and micro-scale discussing the emergence of band structure and delcocalized electronic and optical properties that emerge due to the finite scale of ordering and influence of the surface. Select examples will be drawn from advances in materials for in solar energy utilization with photochemistry and photoelectrochemistry and materials for photovoltaic and enabling advances electrochemical energy conversion and storage. | ||||||
| CHEM 7650-001 | Chemistry of the f-Block Elements | Eric J Schelter | CHEM 119 | MW 10:15 AM-11:44 AM | The course encompasses the descriptive chemistry, and topics related to, the f-block including the rare earth metals and actinides. Coverage includes coordination chemistry and periodic trends, electronic structure and magnetism, and modern applications of f-block chemistry including lanthanide ions as spectroscopic probes, separations chemistry, materials chemistry and applications, organo-f-element chemistry, the chemistry of the actinides and transactinides, and reactivity/catalysis with f-block compounds. | ||||||
| CHEM 9990-001 | Masters Thesis | Ernest J Petersson | Chemistry Master's Thesis Status | ||||||||
| CHEM 9995-004 | Dissertation | Edward James Delikatny | Chemistry Dissertation Status | ||||||||
| CHEM 9995-005 | Dissertation | Zahra Fakhraai | Chemistry Dissertation Status | ||||||||
| CHEM 9995-006 | Dissertation | Virgil Percec | Chemistry Dissertation Status |
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