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Basic Physics 3A Basic Physics 3A. Lecture 01. Introduction to the Course. Basic Physics 3A. Lecture 02. Describing Motion. Basic Physics 3A. Lecture 03. Basic Physics 3A. Lecture 04. Basic Physics 3A. Lecture 05. Basic Physics 3A. Lecture 06. Basic Physics 3A. Lecture 07. Constant Acceleration in 2D Motion. Basic Physics 3A. Lecture 08. Basic Physics 3A. Lecture 09. Basic Physics 3A. Lecture 10. Basic Physics 3A. Lecture 11. Basic Physics 3A. Lecture 12. Basic Physics 3A. Lecture 13. Basic Physics 3A. Lecture 14. Basic Physics 3A. Lecture 15. Basic Physics 3A. Lecture 16. Basic Physics 3A. Lecture 17. Basic Physics 3A. Lecture 18. Basic Physics 3A. Lecture 19. Basic Physics 3A. Lecture 20. Basic Physics 3A. Lecture 21. Chem 128: Intro to Chemical Biology Chem 128. Intro to Chemical Biology. Lecture 15: Glycobiology & Polyketides Chem 128. Intro to Chemical Biology. Lecture 16: Glycobiology & Polyketides, Part 2 Chem 128. Intro to Chemical Biology. Lecture 17: Terpenes and Cell Signaling, Part 1 Chem 128: Intro to Chemical Biology. Lecture 1. Introduction/What is Chemical Biology? Chem 128: Intro to Chemical Biology. Lecture 10: Proteins and Amino Acid Conformations Chem 128: Intro to Chemical Biology. Lecture 11: Proteins and Amino Acid Conformations, Part 2 Chem 128: Intro to Chemical Biology. Lecture 12: Protein Functions Chem 128: Intro to Chemical Biology. Lecture 13: Protein Functions Chem 128: Intro to Chemical Biology. Lecture 14: Glycobiology Chem 128: Intro to Chemical Biology. Lecture 14: Protein Function and Enzymes Chem 128: Intro to Chemical Biology. Lecture 2. Common Tools in Chemical Biology Chem 128: Intro to Chemical Biology. Lecture 3. Reactivity and Arrow Pushing. Chem 128: Intro to Chemical Biology. Lecture 4. Combinatorial Chemistry and Biology Chem 128: Intro to Chemical Biology. Lecture 5. Non-Covalent Interactions, DNA Chem 128: Intro to Chemical Biology. Lecture 6. DNA Reactivity with Small Molecules Chem 128: Intro to Chemical Biology. Lecture 7. DNA, RNA, and Cancer Chem 128: Intro to Chemical Biology. Lecture 8: RNA Chem 128: Intro to Chemical Biology. Lecture 9: RNA part 2 Intro to Chemical Biology 128. Lecture 18. Terpenes and Cell Signaling, Part 2 Chem 131B: Molecular Structure & Statistical Mechanics Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 1. Symmetry and Spectroscopy Pt. 1 Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 10. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 11. First Midterm Exam Review Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 12. Electronic Spectroscopy Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 13. Electronic Spectroscopy (Pt. II) Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 14. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 15. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 16. Fourier Transforms, NMR Intro Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 17. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 18. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 19. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 2. Symmetry and Spectroscopy Pt 2. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 20. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 21 Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 22. The Boltzmann Distribution Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 23. Partition Functions Pt. 1 Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 24. Partition Functions Pt. 2 Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 3. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 4. Group Theory Applications. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 5. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 6. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 7. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 8. Chem 131B: Molecular Structure & Statistical Mechanics. Lec. 9. Molecular Structure & Statistical Mechanics 131B. Lecture 25. Partition Functions. Molecular Structure & Statistical Mechanics 131B. Lecture 26. Final Exam Review Chem 131C: Thermodynamics and Chemical Dynamics Chem 131C (Spring 2012): Carnot cycle Chem 131C (Spring 2012): Energy & q (the partition function) Chem 131C (Spring 2012): Entropy Chem 131C (Spring 2012): Entropy and the 2nd law Chem 131C (Spring 2012): Enzymes (second and final attempt) Chem 131C (Spring 2012): Equilibrium in Action Chem 131C (Spring 2012): Finding Equilibrium Chem 131C (Spring 2012): Getting to Know the Gibbs Energy Chem 131C (Spring 2012): Introduction & What is statistical mechanics? Chem 131C (Spring 2012): Jim Joule Chem 131C (Spring 2012): Lindemann-Hinshelwood Part 1 Chem 131C (Spring 2012): Lindemann-Hinshelwood Part 2 and Enzymes Chem 131C (Spring 2012): Midterm 1 review Chem 131C (Spring 2012): Midterm 2 Exam Review Chem 131C (Spring 2012): Observational Chemical Kinetics Chem 131C (Spring 2012): the 1st law (review) & adiabatic processes part II Chem 131C (Spring 2012): The Boltzmann distribution law Chem 131C (Spring 2012): The Chemical Potential Chem 131C (Spring 2012): The Equipartition theorem Chem 131C (Spring 2012): The Final Exam Chem 131C (Spring 2012): The First Law Chem 131C (Spring 2012): the Gibbs Energy Chem 131C (Spring 2012): The Integrated Rate Law Chem 131C (Spring 2012): The Rotational partition function Chem 131C (Spring 2012): The Steady State Approximation Chem 131C (Spring 2012): Transition State Theory Chem 131C (Spring 2012): Vibrational partitional functions Chem 1A: General Chemistry Chem 1A. General Chemistry. February 11, 2013: Dipole Moment Chem 1A. General Chemistry. February 13, 2013: Two Theories of Bonding Chem 1A. General Chemistry. February 15, 2013: Hybridization Examples and MO Diagram Introduction Chem 1A. General Chemistry. February 20, 2013: Molecular Orbital Theory Chem 1A. General Chemistry. February 22, 2013: Molecular Orbital Theory, Part 2 Chem 1A. General Chemistry. February 25, 2013: Dipole Forces, Dispersion Forces Chem 1A. General Chemistry. February 27, 2013: Review Chem 1A. General Chemistry. March 12, 2013. Kinetic Molecular Theory Chem 1A. General Chemistry. March 4, 2013. Gas Laws, Part 1 Chem 1A. General Chemistry. March 6, 2013: Gas Laws, Part 2 Chem 1A. General Chemistry. March 8, 2013. Dalton's Law of Partial Pressures General Chemistry 1A. Lecture 22. Effusion Continued and Real Gasses. General Chemistry 1A. Lecture 23. Final Exam Review. Chem 1B: General Chemistry Chem 1B (Spring 2012): "Clean Natural Gases" and More Review Problems Chem 1B (Spring 2012): Basic properties of solutions and review problems Chem 1B (Spring 2012): Born-Haber Cycle, Mean Bond Enthalpies and Calorimetry Chem 1B (Spring 2012): Chemistry Applies to Us and Review Problems Chem 1B (Spring 2012): Condensed phases, solids, and phase diagrams Chem 1B (Spring 2012): Corrections, Midterm Postmortem, Free Energy and Equilibrium Chem 1B (Spring 2012): Equilibrium Calculations Chem 1B (Spring 2012): Equilibrium Constants - Temperature and Pressure Chem 1B (Spring 2012): Free Energy and Review Problems Chem 1B (Spring 2012): Gases, Partial Pressures and Kinetic Theory Chem 1B (Spring 2012): General course information & properties of gases Chem 1B (Spring 2012): Last gas(p) and condensed phases Chem 1B (Spring 2012): One Midterm Problem, Free Energy and Equilibrium Chem 1B (Spring 2012): Osmotic Pressure, Colloids & Sum Up of Colligative Properties Chem 1B (Spring 2012): Phase Diagrams and Phase Transitions Chem 1B (Spring 2012): Solutions and colligative properties Chem 1B (Spring 2012): Thermochemistry: Work, Heat, and the First Law of Thermodynamics Chem 1B (Spring 2012): Work, Heat, Enthalpy and Heat Capacity Chem 1B (Winter 2013): General Chemistry. Lec 1: Intermolecular Forces Liquids & Solids Part 1 Chem 1B (Winter 2013): General Chemistry. Lec 10 Chem 1B (Winter 2013): General Chemistry. Lec 11 Chem 1B (Winter 2013): General Chemistry. Lec 12 Chem 1B (Winter 2013): General Chemistry. Lec 14: Chemical Equilibrium Part 1 Chem 1B (Winter 2013): General Chemistry. Lec 15: Chemical Equilibrium Part 2 Chem 1B (Winter 2013): General Chemistry. Lec 16: Chemical Equilibrium Part 3 Chem 1B (Winter 2013): General Chemistry. Lec 2: Intermolecular Forces Liquids & Solids Part 2 Chem 1B (Winter 2013): General Chemistry. Lec 3: Intermolecular Forces--Real World Examples Chem 1B (Winter 2013): General Chemistry. Lec 4 Chem 1B (Winter 2013): General Chemistry. Lec 5 Chem 1B (Winter 2013): General Chemistry. Lec 6 Chem 1B (Winter 2013): General Chemistry. Lec 7 Chem 1B (Winter 2013): General Chemistry. Lec 8 Chem 1B (Winter 2013): General Chemistry. Lec 9 Chem 1B: General Chemistry. Lec 13 General Chemistry 1B. Lecture 17. Final Exam Review Chem 201: Organic Reaction Mechanisms I Chem 201: Organic Reaction Mechanisms I. Lecture 1: Arrow Pushing (Pt. 1) Chem 201: Organic Reaction Mechanisms I. Lecture 1: Arrow Pushing (Pt. 2) Chem 201: Organic Reaction Mechanisms I. Lecture 11. Eliminations Chem 201: Organic Reaction Mechanisms I. Lecture 11. Eliminations (Pt. II) & Lecture 12. Addition to p* Chem 201: Organic Reaction Mechanisms I. Lecture 12. (Pt. II) Addition to p* Chem 201: Organic Reaction Mechanisms I. Lecture 13. (Pt. III) Addition to p* Chem 201: Organic Reaction Mechanisms I. Lecture 14. Alkali Organometallics (Pt. II) Chem 201: Organic Reaction Mechanisms I. Lecture 14. Alkali Organometallics (Pt. III) & Lec. 15. Chem 201: Organic Reaction Mechanisms I. Lecture 14. Anions Chem 201: Organic Reaction Mechanisms I. Lecture 14. Anions (Pt. II) & Lecture 15. Alkali Organometallics Chem 201: Organic Reaction Mechanisms I. Lecture 15. Addition of E+ to C=C Chem 201: Organic Reaction Mechanisms I. Lecture 15. Addition of E+ to C=C (Pt. II) & Lecture 16. C-C Bonds Chem 201: Organic Reaction Mechanisms I. Lecture 19. Sulfur Chemistry Chem 201: Organic Reaction Mechanisms I. Lecture 2.1: Molecular Orbital Theory (Pt. II) & Energy Chem 201: Organic Reaction Mechanisms I. Lecture 2: Molecular Orbital Theory (Pt. I) Chem 201: Organic Reaction Mechanisms I. Lecture 20. Phosphorus Chemistry Chem 201: Organic Reaction Mechanisms I. Lecture 3: Molecular Orbital Theory (Pt. III) & Energy Pt. 2 Chem 201: Organic Reaction Mechanisms I. Lecture 4: Selectivity Chem 201: Organic Reaction Mechanisms I. Lecture 5: Carbocations Chem 201: Organic Reaction Mechanisms I. Lecture 6: Carbocation Stabilization by Vicinal Sigma Bonds Chem 201: Organic Reaction Mechanisms I. Lecture 7 Pt. II: Neighboring Groups & Lecture 8: Solvation Chem 201: Organic Reaction Mechanisms I. Lecture 7: Neighboring Groups Chem 201: Organic Reaction Mechanisms I. Lecture 9. Addition to Sigma Star (s*) Chem 201: Organic Reaction Mechanisms I. Lecture 9. Pt. II. Addition to Sigma Star (s*) Chem 201: Organic Reaction Mechanisms I. Lecture 9. Pt. III. & Lecture 10. Migratory Displacements Chem 203: Organic Spectroscopy Chem 203 Organic Spectroscopy Lecture 3 Chem 203, Discussion 1. Monday, September 26. Molecular Modeling with PyMOL: Using Molecular Mechanics to Generate Three-Dimensional Molecular Structures Chem 203, Lecture 1. Friday, September 23. Infrared Spectroscopy: Introduction, Theory, Instrumentation, and Sample Preparation Chem 203, Lecture 10. Friday, October 14. 13C NMR Chemical Shifts. Chemical Equivalence and Spin-Spin Coupling Chem 203, Lecture 11. Monday, October 17. Magnetic Equivalence, Spin Systems, and Pople Notation Chem 203, Lecture 12. Wednesday, October 19. Coupling Analysis in First-Order and Near-First-Order Systems Chem 203, Lecture 13. Friday, October 21. Coupling Analysis in First-Order and Near-First-Order Systems (continued) Chem 203, Lecture 14. Monday, October 24. Spin-Spin Coupling in Stereochemistry and Structure Determination Chem 203, Lecture 15. Wednesday, October 26. Coupling Involving Other Nuclei Chem 203, Lecture 16. Friday, October 28. The Importance of 13C Chemical Shifts in Structure and Stereochemistry Determination Chem 203, Lecture 17. Monday, October 31. Introduction to 2D NMR Spectroscopy Chem 203, Lecture 18. Wednesday, November 2. Dynamic Effects in NMR Spectroscopy Chem 203, Lecture 19. Monday, November 7. The Nuclear Overhauser Effect in Stereochemistry and Structure Determination Chem 203, Lecture 2. Monday, September 26. Infrared Spectroscopy: C,H,O-Containing Functional Groups Chem 203, Lecture 20. Wednesday, November 9. Understanding Complex Pulse Sequences Chem 203, Lecture 21. Monday, November 14. Using HMBC to Help Solve Structures: Putting the Pieces Together Chem 203, Lecture 22. Wednesday, November 16. Aspects of COSY, HMQC, HMBC, and Related Experiments Chem 203, Lecture 23. Friday, November 18. Using TOCSY to Elucidate Spin Systems. ROESY Chem 203, Lecture 24. Monday, November 21. Using Organic Spectroscopy to Solve Complex Structures Chem 203, Lecture 25. Wednesday, November 23. INADEQUATE. Some Thoughts on Homework Set 9 Chem 203, Lecture 26. Monday, November 28. Using Organic Spectroscopy to Solve Complex Structures, Part 2 Chem 203, Lecture 27. Wednesday, November 30. Using HMQC-TOCSY or HSQC-TOCSY to Deal with Overlap Chem 203, Lecture 28. Friday, December 2. Some Other Useful NMR Techniques Chem 203, Lecture 4. Friday, September 30. Mass Spectrometry: Theory, Instrumentation, and Techniques Chem 203, Lecture 5: Isotopic Masses, Isotopic Abundances, and High-Resolution Mass Spectrometry Chem 203, Lecture 6. Wednesday, October 5. Fragmentation in EIMS: Alkanes, Alkenes, Heteroatom Compounds, Carbonyl Compounds Chem 203, Lecture 7. Friday, October 7. Introduction to NMR Spectroscopy: Concepts and Theory, Part 1 Chem 203, Lecture 8. Monday, October 10. Introduction to NMR Spectroscopy: Concepts and Theory, Part 2 Chem 203, Lecture 9. Wednesday, October 12. Chemical Shift. 1H NMR Chemical Shifts Chem 5: Scientific Computing Skills Chem 5: Scientific Computing Skills. Lecture 1. Introduction Chem 5: Scientific Computing Skills. Lecture 10. Chem 5: Scientific Computing Skills. Lecture 11. Chem 5: Scientific Computing Skills. Lecture 12. Chem 5: Scientific Computing Skills. Lecture 13. Chem 5: Scientific Computing Skills. Lecture 14. Chem 5: Scientific Computing Skills. Lecture 15. Chem 5: Scientific Computing Skills. Lecture 16. Chem 5: Scientific Computing Skills. Lecture 17. Chem 5: Scientific Computing Skills. Lecture 18. Chem 5: Scientific Computing Skills. Lecture 19. Chem 5: Scientific Computing Skills. Lecture 2. Chem 5: Scientific Computing Skills. Lecture 20. Chem 5: Scientific Computing Skills. Lecture 21. Chem 5: Scientific Computing Skills. Lecture 22. Chem 5: Scientific Computing Skills. Lecture 23. Chem 5: Scientific Computing Skills. Lecture 24. Chem 5: Scientific Computing Skills. Lecture 25. Chem 5: Scientific Computing Skills. Lecture 3. Chem 5: Scientific Computing Skills. Lecture 4. Chem 5: Scientific Computing Skills. Lecture 5. Chem 5: Scientific Computing Skills. Lecture 6. Chem 5: Scientific Computing Skills. Lecture 7. Chem 5: Scientific Computing Skills. Lecture 8. Chem 5: Scientific Computing Skills. Lecture 9. Chem 51B: Organic Chemistry Chem 51B: Organic Chemistry. Lec. 1. Syllabus/Review of Chem 51A Chem 51B: Organic Chemistry. Lec. 10. Alkynes, Part 2 Chem 51B: Organic Chemistry. Lec. 11. Alkynes, Part 3 Chem 51B: Organic Chemistry. Lec. 12. Alkynes, Part 3 Chem 51B: Organic Chemistry. Lec. 13. Reduction and Oxidization Chem 51B: Organic Chemistry. Lec. 14. Reduction and Oxidization, Part 2 Chem 51B: Organic Chemistry. Lec. 15. Reduction and Oxidization, Part 3 Chem 51B: Organic Chemistry. Lec. 16: Infrared Spectroscopy +Ch. 14 Chem 51B: Organic Chemistry. Lec. 17: NMR Spectroscopy Chem 51B: Organic Chemistry. Lec. 18: NMR Spectroscopy, Part 2 Chem 51B: Organic Chemistry. Lec. 19: NMR Spectroscopy, Part 3 Chem 51B: Organic Chemistry. Lec. 2. Alcohols, Ethers, and Expodites Part 1. Chem 51B: Organic Chemistry. Lec. 20: Radicals Chem 51B: Organic Chemistry. Lec. 21. Conjugation, Resonance, Diels-Alder Reactions, Part 1 Chem 51B: Organic Chemistry. Lec. 22: Conjugation, Resonance, Diels-Alder Reactions, Part 2 Chem 51B: Organic Chemistry. Lec. 23: Aromaticity Chem 51B: Organic Chemistry. Lec. 24: Electrophilic Aromatic Substitution Chem 51B: Organic Chemistry. Lec. 25: Electrophilic Aromatic Substitution, Part 2 Chem 51B: Organic Chemistry. Lec. 3. Alcohols, Ethers, and Epoxides Part 2 Chem 51B: Organic Chemistry. Lec. 4. Alcohols, Ethers, and Epoxides Part 3 Chem 51B: Organic Chemistry. Lec. 5: Alcohols, Ethers, and Epoxides Part 4 Chem 51B: Organic Chemistry. Lec. 6. Alkenes Chem 51B: Organic Chemistry. Lec. 7. Alkenes Part 2 Chem 51B: Organic Chemistry. Lec. 8. Alkenes, Part 3 Chem 51B: Organic Chemistry. Lec. 9. Alkenes, Part 4 Organic Chemistry 51B. Lecture 26. Electrophilic Aromatic Substitution, Part 3. Chem 51C: Organic Chemistry Chem 51C (Spring 2012): Acid-Catalyzed Formation of Hydrates, Hemiacetals, and Acetals from Aldehydes and Ketones Chem 51C (Spring 2012): Aldehydes and Ketones: Reactions with Basic Nucleophiles and Acid-Catalyzed Reactions with Weakly Basic Nucleophiles Chem 51C (Spring 2012): Amino Acids, Peptides, and Proteins Chem 51C (Spring 2012): Chemistry of the Carboxylic Acid Family. Reactions of Acid Chlorides and Anhydrides Chem 51C (Spring 2012): Enols and Enolates Chem 51C (Spring 2012): Formation of Imines and Enamines from Aldehydes and Ketones Chem 51C (Spring 2012): Introduction to Amines - Properties and Synthesis Chem 51C (Spring 2012): Introduction to Carbohydrates: Structure and Stereochemistry Chem 51C (Spring 2012): Introduction to Carboxylic Acids Chem 51C (Spring 2012): More Reactions of Enols and Enolates Chem 51C (Spring 2012): Organometallic Reactions in Organic Synthesis Chem 51C (Spring 2012): Reaction of carboxylic acids, esters, amides and nitriles Chem 51C (Spring 2012): Reactions of Amines: Hofmann Degradation, Diazotization, and Reactions of Aryl Diazonium Salts Chem 51C (Spring 2012): Reactions of Organometallic Reagents with Carbonyl Compounds and Carboxylic Acid Derivatives with Hydride and Organometallic Reagents Chem 51C (Spring 2012): Reactivity of Carbonyl Compounds, Reduction of Aldehydes and Ketones with Hydride Nucleophiles Chem 51C (Spring 2012): Selective Reactions and Protecting Groups in the Chemistry of Carbonyl Compounds and Organometallic Reagents. Chem 51C (Spring 2012): Structure and Stereochemistry of Carbohydrates (continued) and Reactions of Carbohydrates Chem 51C (Spring 2012): The Aldol Reaction and the Michael Reaction Chem 51C (Spring 2012): The Robinson Annulation and the Claisen Reaction Chemistry 51A: Organic Chemistry Chem 51A 09/25/09 Ch. 1. Syllabus and Introduction Chem 51A 09/28/09 Ch. 1. Bond Polarity, Formal Charge, Lewis Structures Chem 51A 09/30/09 Ch. 1. Resonance Structures, Skeletal Structures, Bond Length Chem 51A 10/02/09 Ch. 1. Orbital Models of Structure and Bonding Chem 51A 10/05/09 Ch. 1. Molecular Geometry. Ch. 2. Acids and Bases Chem 51A 10/07/09 Ch. 2. Acid Strength and Equilibria Chem 51A 10/09/09 Ch. 2. Lewis Acids, Lewis Bases, and Organic Reaction Mechanisms Chem 51A 10/12/09 Ch. 3. Organic Compounds and Functional Groups Chem 51A 10/16/09 Ch. 3. Carbonyl Compounds, Intermolecular Forces Chem 51A 10/19/09 Ch. 4. Introduction to Alkanes Chem 51A 10/21/09 Ch. 4. Nomenclature of Alkanes, Conformations of Ethane Chem 51A 10/23/09 Ch. 4. Conformations of Butane and Cycloalkanes Chem 51A 10/26/09 Ch. 4. Conformations of Cyclohexane Chem 51A 10/28/09 Ch. 5. Introduction to Stereochemistry Chem 51A 10/30/09 Ch. 5. Assigning Tetrahedral Stereogenic Centers Chem 51A 11/04/09 Ch. 5. Meso Compounds Chem 51A 11/06/09 Ch. 5. Properties of Chiral Compounds Chem 51A 11/09/09 Ch. 6. Introduction to Understanding Organic Reactions Chem 51A 11/13/09 Ch. 6. Energy Diagrams, Transition States, and Reaction Rates Chem 51A 11/16/09 Ch. 6. Energetics of Reactions Chem 51A 11/18/09 Ch 7. Introduction to Alkyl Halides and Nuceophilic Substitution Chem 51A 11/20/09 Ch 7. Mechanistic and Stereochemical Aspects of SN2 Reactions Chem 51A 11/23/09 Ch 7. Mechanistic and Stereochemical Aspects of SN1 Reactions Chem 51A 11/25/09 Ch 7. Properties of Electrophiles, Leaving Groups, and Nucleophiles Chem 51A 11/30/09 Ch. 8. Elimination Reactions. Introduction to E2 Reactions Chem 51A 12/02/09 Ch. 8. Regiochemical and Stereochemical Course of E2 Reactions Chem 51A 12/04/09 Ch. 8. E1 Reactions. Comparison of SN1, SN2, E1, and E2 Reactions Introduction Excerpt Chemistry H90 Chemistry H90. The Idiom of Science. Lecture 01. Chemistry H90. The Idiom of Science. Lecture 02. Classifying Matter and its State. Chemistry H90. The Idiom of Science. Lecture 03. Measurements and Moles Chemistry H90. The Idiom of Science. Lecture 04. Chemistry H90. The Idiom of Science. Lecture 05. Chemistry H90. The Idiom of Science. Lecture 06. Chemistry H90. The Idiom of Science. Lecture 08. Chemistry H90. The Idiom of Science. Lecture 09. Chemistry H90. The Idiom of Science. Lecture 10. Chemistry H90. The Idiom of Science. Lecture 11. Chemistry H90. The Idiom of Science. Lecture 12. Chemistry H90. The Idiom of Science. Lecture 13. Chemistry H90. The Idiom of Science. Lecture 14. Chemistry H90. The Idiom of Science. Lecture 15. Chemistry H90. The Idiom of Science. Lecture 16. Chemistry H90. The Idiom of Science. Lecture 18. Chemistry H90. The Idiom of Science. Lecture 19. Chemistry H90. The Idiom of Science. Lecture 20. Chemistry H90. The Idiom of Science. Lecture 21. Earth System Science 280A: Sustainability Science ESS 280A Lecture 1: Climate Change - The Science (Part A) ESS 280A Lecture 10: Security 2: Management & Sustainability ESS 280A Lecture 2: Climate Change - The Science (Part B) ESS 280A Lecture 3: Biodiversity and Ecology ESS 280A Lecture 4: Climate Change - Part C ESS 280A Lecture 5: Demographics & China ESS 280A Lecture 6: Transportation and Urban Systems ESS 280A Lecture 7: Economics Markets & Governments; Cost-benefit Analysis ESS 280A Lecture 8: Security 1: Environmental Stresses & Negative Impacts ESS 280A Lecture 9: Environmental Policy General Chemistry 1C General Chemistry 1C. Lecture 1. Chemical Equilibrium Pt. 1. General Chemistry 1C. Lecture 10. Buffered Solutions (Buffers) Pt. 1. General Chemistry 1C. Lecture 11. Buffered Solutions (Buffers) Pt. 2. General Chemistry 1C. Lecture 12. Buffered Solutions (Buffers) Pt. 2. General Chemistry 1C. Lecture 13. Aqueous Equilibria Pt. 1. General Chemistry 1C. Lecture 14. Aqueous Equilibria Pt. 2. General Chemistry 1C. Lecture 15. Aqueous Equilibria Pt. 4. General Chemistry 1C. Lecture 16. Electrochemistry Pt. 1. General Chemistry 1C. Lecture 17 General Chemistry 1C. Lecture 18. Electrochemistry Pt. 3. General Chemistry 1C. Lecture 19. Electrochemistry Pt. 4. General Chemistry 1C. Lecture 2. Chemical Equilibrium Pt. 2. General Chemistry 1C. Lecture 20. Electrochemistry Pt. 5. General Chemistry 1C. Lecture 21. Electrochemistry Pt. 6. General Chemistry 1C. Lecture 3. Chemical Equilibrium Pt. 3. General Chemistry 1C. Lecture 4. Acids and Bases. Pt. 1. General Chemistry 1C. Lecture 5. Acids and Bases. Pt. 2. General Chemistry 1C. Lecture 6. Acids and Bases. Pt. 3. General Chemistry 1C. Lecture 7. Acids and Bases. Pt. 4. General Chemistry 1C. Lecture 8. Acids and Bases. Pt. 5. General Chemistry 1C. Lecture 9. Acids and Bases. Pt. 6. New Algorithms in Information Science New Algorithms in Information Science Physical Science Breakfast Lectures 2012-2013 A Few of my Favorite Rings: Catalysis Inspired by Cyclic Structures Physics 20B: Cosmology Physics 20B: Cosmology. Lec. 1. What is Cosmology, Scientific Notation, Size and Time. Physics 20B: Cosmology. Lec. 10. Review and Einstein Physics 20B: Cosmology. Lec. 11. Our Galaxy, the Milky Way Physics 20B: Cosmology. Lec. 12. Discovering the Galaxy Physics 20B: Cosmology. Lec. 13. Asteroids, Impacts, and Extinction Physics 20B: Cosmology. Lec. 14: Understanding Galaxies Physics 20B: Cosmology. Lec. 15: Universe of Galaxies Physics 20B: Cosmology. Lec. 16: The Expanding Universe Physics 20B: Cosmology. Lec. 17: Black Holes, Dark Energy, and the Age of the Universe Physics 20B: Cosmology. Lec. 18: The Big Bang and Dark Matter Physics 20B: Cosmology. Lec. 2. Historical Perspective, Ancient Astronomy and the Scientific Method Physics 20B: Cosmology. Lec. 3. Isaac Newton. Physics 20B: Cosmology. Lec. 4. Exploring the Cosmic Landscape Physics 20B: Cosmology. Lec. 5. Light In The Universe Physics 20B: Cosmology. Lec. 6. Light and the Elements of the Universe Physics 20B: Cosmology. Lec. 7. Energy and the Sun Physics 20B: Cosmology. Lec. 8. Energy and the Stars Physics 20B: Cosmology. Lec. 9. Exploring the Stars Putting Together the Pieces of the Universe Putting Together the Pieces of the Universe