Courses total: 145277


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Course
Description
Dates
2961
5-301iap12
5-301iap12
John J. Dolhun
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course is an intensive introduction to the techniques of experimental chemistry and gives first year students an opportunity to learn and master the basic chemistry lab techniques for carrying out experiments. Students who successfully complete the course and obtain a "Competent Chemist" (CC) or...
Free schedule
Favored by 1 person
2962
5-302iap05
5-302iap05
Dr. Janet Schrenk
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
5.302 is a 3-unit course intended to provide freshmen with a stimulating and enjoyable "hands-on" experience with chemical phenomena. The aim of this course is to provide freshmen with an opportunity to get "up close and personal" with the chemical phenomena introduced in 5.111, 5.112 and 3.091...
Free schedule
2963
5-31s03
5-31s03
Dr. Janet Schrenk
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
Laboratory Chemistry (5.310) introduces experimental chemistry for students requiring a chemistry laboratory who are not majoring in chemistry. Students must have completed general chemistry (5.111) and have completed or be concurrently enrolled in the first semester of organic chemistry (5.12)...
Free schedule
Favored by 1 person
2964
5-311f05
5-311f05
Dr. Janet Schrenk
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
5.311 is the first of a three-term laboratory subject sequence for chemistry majors. Experimental work emphasizes development of fundamental laboratory skills and techniques: volumetric and colorimetric analysis; nuclear magnetic resonance; preparation, purification, and characterization of chemical...
Free schedule
2965
5-32s03
5-32s03
Dr. Mircea Gheorghiu(Laboratory Director)
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
5.32 involves more advanced experimental work than 5.310 or 5.311. The course emphasizes organic synthesis assisted by chiral catalysis, purification, and analysis of organic compounds employing such methods as IR, 1D and 2D NMR, UV spectroscopies and mass spectrometry, and thin layer and non-chiral...
Free schedule
Favored by 1 person
2966
5-33f07
5-33f07
Dr. Mircea Gheorghiu(Laboratory Director)
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
5.33 focuses on advanced experimentation, with particular emphasis on chemical synthesis and the fundamentals of quantum chemistry, illustrated through molecular spectroscopy. The written and oral presentation of experimental results is also emphasized in the course. Acknowledgements The materials...
Free schedule
Favored by 1 person
2967
5-35f12
5-35f12
Prof. Keith Nelson
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course is the first part of a modular sequence of increasingly sophisticated (and challenging) laboratory courses required of all Chemistry majors: 5.35 Introduction to Experimental Chemistry, 5.36 Biochemistry and Organic Laboratory, 5.37 Organic and Inorganic Laboratory, and 5.38&nbsp...
Free schedule
Favored by 1 person
2968
5-36s09
5-36s09
Dr. Elizabeth Vogel Taylor
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
The course, which spans two thirds of a semester, provides students with a research-inspired laboratory experience that introduces standard biochemical techniques in the context of investigating a current and exciting research topic, acquired resistance to the cancer drug Gleevec. Techniques include...
Free schedule
Favored by 1 person
2969
5-37s09
5-37s09
Prof. Rick Danheiser
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course, which spans a third of a semester, provides students with experience using techniques employed in synthetic organic chemistry. It also introduces them to the exciting research area of catalytic chiral catalysis. This class is part of the new laboratory curriculum in the MIT Department...
Free schedule
2970
5-43s07
5-43s07
Prof. Mohammad Movassaghi
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course deals with the application of structure and theory to the study of organic reaction mechanisms: Stereochemical features including conformation and stereoelectronic effects; reaction dynamics, isotope effects and molecular orbital theory applied to pericyclic and photochemical reactions; and...
Free schedule
2971
5-44f04
5-44f04
Prof. Gregory Fu
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course examines important transformations of organotransition-metal species with an emphasis on basic mechanisms, structure-reactivity relationships, and applications in organic synthesis.
Free schedule
2972
5-451f05
5-451f05
Prof. Sarah O’Connor
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
5.451 is a half-semester introduction to natural product biosynthetic pathways. The course covers the assembly of complex polyketide, peptide, terpene and alkaloid structures. Discussion topics include chemical and biochemical strategies used to elucidate natural product pathways.
Free schedule
2973
5-46s07
5-46s07
Dr. Jeff Simpson
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course covers modern and advanced methods of elucidation of the structures of organic molecules, including NMR, MS, and IR (among others). The fundamental physical and chemical principles of each method will be discussed. The major emphasis of this course is on structure determination by way of...
Free schedule
2974
5-512s05
5-512s05
Prof. Rick Danheiser
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course focuses on general methods and strategies for the synthesis of complex organic molecules. Emphasis is on strategies for stereoselective synthesis, including stereocontrolled synthesis of complex acyclic compounds.
Free schedule
2975
5-60s08
5-60s08
Prof. Keith A. Nelson
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This subject deals primarily with equilibrium properties of macroscopic systems, basic thermodynamics, chemical equilibrium of reactions in gas and solution phase, and rates of chemical reactions.
Free schedule
2976
5-61f07
5-61f07
Prof. Robert Guy Griffin
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course presents an introduction to quantum mechanics. It begins with an examination of the historical development of quantum theory, properties of particles and waves, wave mechanics and applications to simple systems — the particle in a box, the harmonic oscillator, the rigid rotor and the...
Free schedule
2977
5-62s08
5-62s08
Prof. Robert Field
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course covers elementary statistical mechanics, transport properties, kinetic theory, solid state, reaction rate theory, and chemical reaction dynamics. Acknowledgements The staff for this course would like to acknowledge that these course materials include contributions from past instructors, textbooks...
Free schedule
2978
5-68js03
5-68js03
Prof. Jeffrey Steinfeld
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course deals with the experimental and theoretical aspects of chemical reaction kinetics, including transition-state theories, molecular beam scattering, classical techniques, quantum and statistical mechanical estimation of rate constants, pressure-dependence and chemical activation, modeling complex...
Free schedule
2979
5-72s12
5-72s12
Prof. Jianshu Cao
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
This course discusses the principles and methods of statistical mechanics. Topics covered include classical and quantum statistics, grand ensembles, fluctuations, molecular distribution functions, other concepts in equilibrium statistical mechanics, and topics in thermodynamics and statistical mechanics...
Free schedule
Favored by 1 person
2980
5-73f02
5-73f02
Prof. Robert Field
MIT OpenCourseWare
Chemistry
Gb Free
Course added: long ago
5.73 covers fundamental concepts of quantum mechanics: wave properties, uncertainty principles, Schrodinger equation, and operator and matrix methods. Basic applications of the following are discussed: one-dimensional potentials (harmonic oscillator), three-dimensional centrosymetric potentials (hydrogen...
Free schedule



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