- Organic Chemistry with a Biological Emphasis: Volume I
- Analysis of Hydrogen Bonds in Crystals
- Atoms, Molecules and Matter: The Stuff of Chemistry
- CLUE: Chemistry, Life, the Universe and Everything
- Introductory Chemistry
- Analytical Chemistry 2.0
- Introductory Chemistry − 1st Canadian Edition
- Introduction to Chemistry: General, Organic, and Biological v. 1.0
- General Chemistry: Principles, Patterns, and Applications
- Organic Chemistry Laboratory Techniques
- Chemistry 2e
- Chemistry: Atoms First 2e
- Chemistry 432 – Lecture Notes
- Quantum Mechanics Made Simple: Lecture Notes
- Lecture Notes in Quantum Mechanics
- Introductory Quantum Chemistry (Chem 570a: Lecture Notes)
- Professor David Sherrill's Notes on Quantum Chemistry
- Allied Health Chemistry: Foundations of General, Organic, and Biological Chemistry
- Analytical Chemistry Lecture Notes
- Freshman Organic Chemistry I
- Freshman Organic Chemistry II
- The Nature of the Chemical Bond
- Electrons and Chemical Bonding
- Molecular Orbital Theory
- Chemical Dynamics
- Hydrides: Fundamentals and Applications
- Surface Chemistry and Catalysis
- Differential equations in applied chemistry
- A concise history of chemistry
- Bioorganic Chemistry Lecture Notes
- Development of the theory of electrolytic dissociation
- Organometallic chemistry at the threshold of a new millennium Retrospect and prospect
- Electron Counting in Organometallic Chemistry
- Organometallic Catalysis
- The 16 and 18 Electron Rule in Organometallic Chemistry and Homogeneous Catalysis
- Chemical kinetics in the past few decades
General Chemistry I Lecture Notes [Dr. Michael Lufaso]
- Chapter 1 Introduction: Matter and Measurement
- Chapter 2 Atoms, Molecules, and Ions
- Chapter 3 Chemical Reactions and Reaction Stoichiometry
- Chapter 4 Aqueous Reactions and Solution Stoichiometry
- Chapter 5 Thermochemistry
- Chapter 6 Electronic Structure of Atoms
- Chapter 7 Periodic Properties of the Elements
- Chapter 8 Basic Concepts of Chemical Bonding
- Chapter 9 Molecular Geometries and Bonding Theories
- Chapter 10 Gases
Lecture notes:
Lecturer: Prof. Heinz Pitsch, RWTH Aachen University, Germany
- Lecture 1
- Lecture 2
- Lecture 3
- Lecture 4
- Lecture 5
- Lecture 6
- Lecture 7
- Lecture 8
- Lecture 9
- Lecture 10
- Lecture 11
- Lecture 12
Lecturer: Prof. Michael J. Pilling, University of Leeds, UK
Lecturer: Prof. Ronald K. Hanson, Stanford University, USA
- Lecture 1
- Lecture 2
- Lecture 3
- Lecture 4
- Lecture 5
- Lecture 6
- Lecture 7
- Lecture 8
- Lecture 9
- Lecture 10
- Lecture 11
- Lecture 12
- Lecture 13
- Lecture 14
- Lecture 15
Part I: Fundamentals and Performance Metrics
Lecturer: Prof. Rolf. Reitz, University of Wisconsin at Madison
Part II: Perspectives of Future Engines and Fuels
Lecturer: Dr. Gautam Kalghatgi, Saudi Aramco, Saudi Arabia
Part I: Unsteady Combustor Processes
Lecturer: Timothy C. Lieuwen, Georgia Institute of Technology, USA
Part II: Combustion of Energetic Materials
Lecturer: Prof. Richard A. Yetter, Pennsylvania State University, USA
Harvard University Lecture Handouts
Chemistry 304B: Organic Chemistry II
- Lecture 1
- Lecture 2
- Lecture 3
- Lecture 4
- Lecture 5
- Lecture 6
- Lecture 7
- Lecture 8
- Lecture 9
- Lecture 10
- Lecture 11
- Lecture 12
- Lecture 14
- Lecture 15
- Lecture 16
- Lecture 17
- Lecture 18
- Lecture 19
- Lecture 20
- Lecture 21
- Lecture 22
- Lecture 23
- Lecture 24
- Lecture 26
- Lecture 27
- Lecture 28
- Lecture 29
- Lecture 30
- Lecture 31
- Lecture 32
- Lecture 33
- Lecture 34
- Lecture 35
- Lecture 36
- Introduction
- Orbitals: Atomic, Hybrid, and Molecular
- Lewis Structures
- Equilibrium Reactions, Acids and Bases
- Alkanes and Cycloalkanes: Structure
- Alkenes-1: Structure. Reaction Rate and Equilibria
- Alkenes-2: Reactions
- Dienes and Alkynes
- Benzene
- Reactions of Aromatic Compounds
- Stereochemistry-1: Enantiomers
- Stereochemistry-2: Further Adventures in Stereochemistry
- Alkyl Halides: Preparation and Reactions. SN1, SN2, E1 & E2 Mechanisms
- Alcohols, Phenols and Ethers
- Aldehydes and Ketones
- Carboxylic Acids
- Carboxylic Acid Derivatives
- Alpha Substitution Reactions
- Amines
- Amino Acids
- Polypeptides and Proteins
- Carbohydrates
Steps Toward Quantum Theory
Photoelectric Effect
Some Handy Integrals
Complex Waveforms, eix=cos x+isin x
Complex Waveforms- Euler Identity Proof
Classical Harmonic Oscillator
Particle in a Box
Expectation Values-Particle in a Box
Heisenberg Uncertainty Principle: Gaussian Distribution
Heisenberg Uncertainty Principle: Particle in a Box (short version)
Heisenberg Uncertainty Principle: Particle in a Box
Cryptocyanine
Uncertainty and Wave Packets
Particle in a 2-D Box
Particle in a 3-D Box
Quantum Mechanical Tunneling
Fourier Transforms
Fourier Coefficients
Fourier Integration
Postulates of Quantum Mechanics
The Eigenvalues of Quantum Mechanical Operators are Real
The Momentum Operator is Hermitian
Time Dependent Quantum Mechanics
Classical Vibration and Rotation of Diatomics
Rotation In a Plane
Angular Momentum in 3D
Rigid Rotor - Rotation in Three Dimensions
Spherical Polar Coordinates
Harmonic Oscillator
Harmonic Oscillator Excited States
Hermite Equation and Harmonic Oscillator Excited States
Quantum Mechanics Formula Sheet
Ground State of the Hydrogen Atom
Hydrogen Atomic Orbitals
Hydrogen Spherical Atomic Orbital Plots
Hydrogen Atom Most Probable and Average Radius
Many Electron Atoms-Independent Electron Approximation-Helium
Perturbation Method-Helium
Variation Method- Helium
Self-Consistent Field Theory (SCF)
Shielding
Self-Consistent Field Atomic Orbital Energies
Atomic Orbital Ionization Energies
Aufbau Principle
Pauli Exclusion Principle
Total Orbital Angular Momentum, L
Atomic Term Symbols
Spin-Orbit Interaction
Atomic Spectroscopy
The Fine Arts and Science
Atomic Units
Slater Type Orbitals, STO's
Gaussian Basis Sets
Carbon 2p Gaussian Orbital
H2+ Molecular Orbitals - Variation Treatment
Ab initio Molecular Orbital Treatment for H2
Polarization Functions
Electron Correlation - Configuration Interaction
Atomic Orbital Ionization Energies
H2 Bond Strength
CNDO Calculations for LiH, Bent, and Linear Water
LiH Molecular Orbitals (CNDO)
LiH Molecular Orbitals (MNDO)
MOPAC Instructions for Diatomics
MOPAC Z-matrix Construction
Molecular Orbitals for Diatomics (color) Molecular Orbitals for Diatomics (black and white)
Homonuclear Diatomics Bond Strengths
Homonuclear Diatomics Bond Strength Trends
Heteonuclear Diatomics Bond Strength Trends
Self Consistent Field Hartree Fock: Roothaan Equations
Density Functional Theory
Nitrogen Molecular Orbitals (AM1, exp. bond length)
Molecular Orbitals for Polyatomics
Bent and Linear Water (CNDO)
Walsh Diagram for Dihydrides
Walsh Diagram for Methylene Triplet State
Carbon Dioxide Molecular Orbitals (MNDO)
Ozone Molecular Orbitals: Linear and Bent (MNDO)
Ozone: Linear model MOPAC input file
Linear and Bent Triatomics
Walsh Diagram for Ozone (color) Walsh Diagram for Ozone (black and white)
Ammonia, NH3, 90 and 109 deg bond angles (AM1)
Hybridization
sp Linear hybridization
Huckel Molecular Orbital Theory
How to Calculate Determinants
Kramer's Rule and Butadiene HMO Coefficients
Molecular Structure Formula Sheet
Rotational Spectroscopy - Diatomics
Rotational Spectroscopy - Symmetric Tops
Vibrational Spectroscopy and Anharmonicity
Classical Normal Mode Analysis
Classical Normal Mode Analysis (text version)
Formaldehyde Vibrational Analysis (Spartan)
Formaldehyde Vibrational Analysis (Gaussian03)
Vibration- Rotation Spectroscopy
HCl-DCl Infrared Spectra
Diatomic Spectroscopic Constants
IR and Raman Selection Rules
Electronic Spectrscopy SO2 and N2-- Gas Phase
Benzene Electronic Absorption Spectrum -- Gas Phase
I2 and Br2 Electronic Absorption Spectrum -- Gas Phase
Acrolein Electronic Absorption
Acrolein & Chloro-acrolein Molecular Orbitals
Term Symbols and Molecular Spectroscopy
Refelction Symmetry (+ -) and Molecular Term Symbols
Birge- Sponer Extrapolation
Absorbance and Fluorescence Spectroscopy
Ultraviolet Photoelectron Spectroscopy: H2, N2, CO, and H2O
Ultraviolet Photoelectron Spectroscopy
Spin-Spin Splitting in NMR
Electron Spin Resonance
Electron Spin Resonance Examples
Distance Geometry
Spectroscopy Formula Sheet
Bravais Lattices
Path Length and Phase Difference
Path Length and Phase Difference Power Point version
Systematic Extinctions
Systematic Extinctions Power Point
Reciprocal Lattice Examples
Constructing the Reciprocal Lattice
Ewald Construction
Equipartition Theorem Predictions for Internal Energy and Cv
Averaging and Probability Distributions
Boltzman Distribution and the Most Probable Distribution
Effect of Quantum Size on the Population of States
Canonical Ensemble Partition Functions vs. Molecular Partition Functions
Translational Partition Function and beta
Internal Energy and q
Entropy and the Partition Function (from S = -kΣpi ln pi )
Entropy and the Partition Function (from Wmax)
Partition Functions
Electronic Partition Functions
Partition Functions and Units, Units, Units
Thermodynamic Functions from Partition Functions
Thermodynamics and Internal Degrees of Freedom
Vibrational Contribution to Internal Energy and Free Energy vs. T
Formaldehyde Vibrational Analysis with Formulas
Ab Initio SCF Atomic Energies Table (.pdf) SCF Atomic Energies Table (Excel)
Equilibrium Constants and Statistical Mechanics
Equilibrium Constants and Statistical Mechanics Example
Statistical Mechanical Equilibrium Constants- Cl + H2 -> HCl + H
Average Molecular Speed
Collision Theory
Thermodynamic Transition State Theory- Eyring Equation
Thermodynamic Transition State Theory- Gibbs Free Energy
Energy Demand and PE Surfaces
Energy Disposal and PE Surfaces
Statistical Mechanics and Reaction Dynamics Formulas
- Experiment 1 Preparation and Properties of Hexamminechromium(III) Nitrate
- Experiment 2 Synthesis of macrocyclic complexes of nickel(II)
- Experiment 3 Bioinorganic Chemistry: synthesis and properties of an oxygen-carrying cobalt complex which models hemoglobin
- Experiment 4 Crystal Field Theory and the Spectrochemical Series for Cobalt (III) Complexes
- Experiment 5 Tris-bipy complexes of Iron(II) and Ruthenium (II): Synthesis, Spectroscopy and Electrochemistry
| Final Exam with Answer Key |
- Lecture I: Amino acids
- Lecture II: Folding
- Lecture III: Databases
- Lecture IV: X-ray crystallography I
- Lecture V: X-ray crystallography II
- Lecture VI Other methods to determine structure
- Lecture VII: Helices and Sheets
- Lecture VIII: Homology modeling
- Lecture IX: Acetylcholinesterase - Function
- Lecture X: NGF and its receptor
Richard Louie's Chemistry Lectures
Units of Measurement Chemistry Lecture Notes #1
What is Density? Chemistry Lecture Notes #2
Density Calculations Chemistry Lecture Notes #3
Scientific Notation Chemistry Lecture Notes #4
Dimensional Analysis Chemistry Lecture Notes #5
Accuracy and Precision; Percent Error Chemistry Lecture Notes #6
Significant Figures Chemistry Lecture Notes #7
Rules for Recognizing Significant Figures Chemistry Lecture Notes #8
Addition, Subtraction, Multiplication & Division of Sig. Figs. Chemistry Lecture Notes #9
Properties of Matter Chemistry Lecture Notes #10
Changes in Matter Chemistry Lecture Notes #11
Law of Conservation of Mass Chemistry Lecture Notes #12
Mixtures of Matter Chemistry Lecture Notes #13
Elements and Compounds Chemistry Lecture Notes #14
Law of Definite and Multiple Proportions Chemistry Lecture Notes #15
Dalton's Atomic Theory Chemistry Lecture Notes #16
Electrons, Protons, and Neutrons Chemistry Lecture Notes #17
Rutherford's Gold Foil Experiment Chemistry Lecture Notes #18
Atomic Number, Isotopes, and Mass Number Chemistry Lecture Notes #19
Atomic Mass Unit, Atomic Mass Chemistry Lecture Notes #20
Energy Levels, Energy Sublevels, Orbitals Chemistry Lecture Notes #21
Electron Configuration Chemistry Lecture Notes #22
Energy, Photons, Frequency, and Wavelength Chemistry Lecture Notes #23
Demonstration of Emission Spectra Chemistry Lecture Notes #24
Emission Spectra Chemistry Lecture Notes #25
Shape of the s, p, d, and f orbitals Chemistry Lecture Notes #26
Electron Dot Structures Chemistry Lecture Notes #27
History of the Periodic Chart Chemistry Lecture Notes #28
Sections of the Periodic Chart Chemistry Lecture Notes #29
Electron Configuration & the Periodic Chart Chemistry Lecture Notes #30
Periodic Chart, Octet Rule, Valence Electrons & Oxidation Number Chemistry Lecture Notes #31
Atomic & Ionic Radius Chemistry Lecture Notes #32
Ionization Energy, Electron Affinity & Electronegativity Chemistry Lecture Notes #33
Ionic Compounds Chemistry Lecture Notes #34
Names and Formulas for Ionic Compounds Chemistry Lecture Notes #35
Properties of Ionic Compounds and Metals Chemistry Lecture Notes #36
Covalent Bonding Chemistry Lecture Notes #37
Naming Covalent Compounds Chemistry Lecture Notes #38
Lewis Dot Structures Chemistry Lecture Notes #39
Lewis Structures of Polyatomic Ions & Octet Rule Exceptions Chemistry Lecture Notes #40
Shapes of Molecules Chemistry Lecture Notes #41
Polar and Nonpolar Molecules Chemistry Lecture Notes #42
Intermolecular Forces Chemistry Lecture Notes #43
Balancing Chemical Equations Chemistry Lecture Notes #44
Creating Balanced Equations from Sentences Chemistry Lecture Notes #45
Types of Reactions Chemistry Lecture Notes #46
Predicting the Outcome of Single-replacement Reactions Chemistry Lecture Notes #47
Soluble & Insoluble Ionic Compounds Chemistry Lecture Notes #48
Dissociation of Ionic Compounds Chemistry Lecture Notes #49
Reactions that Form Precipitates Chemistry Lecture Notes #50
The Mole Chemistry Lecture Notes #51
Mass and the Mole Chemistry Lecture Notes #52
Molar Mass of Compounds Chemistry Lecture Notes #53
Percent Composition Chemistry Lecture Notes #54
Empirical Formulas Chemistry Lecture Notes #55
Molecular Formulas Chemistry Lecture Notes #56
Formula for a Hydrate Chemistry Lecture Notes #57
Stoichiometric Mass-to-Mass Conversion Chemistry Lecture Notes #58
Stoichiometric Shortcut, Mass-to-Mass Chemistry Lecture Notes #59
Limiting Reactants (Mass-to-Mass) Chemistry Lecture Notes #60
Percent Yield Chemistry Lecture Notes #61
States of Matter Chemistry Lecture Notes #62
Changes of State Chemistry Lecture Notes #63
Atmospheric Pressure, Boiling Point, & Phase Diagrams Chemistry Lecture Notes #64
Specific Heat, Heat of Fusion, and Heat of Vaporization Chemistry Lecture Notes #65
Kinetic Theory, Introduction to Boyle's and Charles's Law Chemistry Lecture Notes #66
Demonstration of Boyle's Law and Charles's Law Chemistry Lecture Notes #67
Boyle's Law and Charles's Law Chemistry Lecture Notes #68
Gay-Lussac's Law & the Combined Gas Law Chemistry Lecture Notes #69
Dalton's Law of Partial Pressures Chemistry Lecture notes #70
Ideal Gas Law Chemistry Lecture Notes #71
Avogadro's Principle Chemistry Lecture Notes #72
Gas Stoichiometry Chemistry Lecture Notes #73
Gas Stoichiometry Short Cuts Chemistry Lecture Notes #74
Graham's Law Chemistry Lecture Notes #75
Solutions, Percent by Mass & Volume Chemistry Lecture Notes #76
Molarity Chemistry Lecture Notes #77
Molarity - Preparations from Stock Solutions Chemistry Lecture Notes #78
Molality Chemistry Lecture Notes #79
Boiling Point Elevation and Freezing Point Depression, Pt. 1 Chemistry Lecture Notes #80
Boiling Point Elevation and Freezing Point Depression, Pt. 2 Chemistry Lecture Notes #81
Reaction Rate and Collision Theory Chemistry Lecture Notes #82
Demonstration of Chemical Reaction Rates Chemistry Lecture Notes #83
Factors Affecting Reaction Rate Chemistry Lecture Notes #84
Calculation of Reaction Rate and the Rate Law Chemistry Lecture Notes #85
Reaction Mechanism and Rate Law Chemistry Lecture Notes #86
Chemical Equilibrium and the Equilibrium Constant Chemistry Lecture Notes #87
Le Chatelier's Principle Chemistry Lecture Notes #88
Acids and Bases Chemistry Lecture Notes #89
Arrhenius, Bronsted-Lowry, & Lewis Theories of Acids & Bases Chemistry Lecture Notes #90
Naming Acids Chemistry Lecture Notes #91
Strengths of Acids and Bases Chemistry Lecture Notes #92
Acid and Base Ionization Constants Chemistry Lecture Notes #93
Common Ion Effect Chemistry Lecture Notes #94
Ion Product Constant for Water and pH Chemistry Lecture Notes #95
pH and pOH Chemistry Lecture Notes #96
Neutralization Reactions & Titration Chemistry Lecture Notes #97
Acid-Base Titration Problems Chemistry Lecture Notes #98
Change in Enthalpy Chemistry Lecture Notes #99
Hess's Law Chemistry Lecture Notes #100
What Is Entropy? Chemistry Lecture Notes #101
Factors Affecting the Spontaneity of a Reaction Chemistry Lecture Notes #102
Gibbs Free Energy Chemistry Lecture Notes #103
Oxidation - Reduction Chemistry Lecture Notes #104
| Group | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Hydrogen and alkali metals |
Alkaline earth metals | Pnictogens | Chalcogens | Halogens | Noble gases | ||||||||||||||
| Period |
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| 2 | |||||||||||||||||||
| 3 | |||||||||||||||||||
| 4 | |||||||||||||||||||
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| 6 | |||||||||||||||||||
| 7 | |||||||||||||||||||
Lecture 1
- Introduction
- lecture_01.pdf (390 KB)
Lecture 2
- Properties of Water and Seawater
- lecture_02.pdf (360 KB)
- lecture 2: questions & answers
Lecture 3
- Temperature; Salinity; Density; General Ocean Circulation
- lecture_03.pdf (1.1 MB)
- lecture 3: questions & answers
Lecture 4
- Major Elements in the Ocean
- lecture_04.pdf (450 KB)
- lecture 4: questions & answers
Lecture 5
- Trace Elements in the Ocean
- lecture_05.pdf (710 KB)
- lecture 5: questions & answers
Field Trip
- Cruise Monterey Bay
- No reading
Lecture 6
- Marine Chemical Mass Balance (Box and Transport Reaction Models)
- lecture_06.pdf (250 KB)
- lecture 6: questions & answers
Lecture 7
- Life in the Oceans: The Chemical Connection
- lecture_07.pdf (680 KB)
- lecture 7: questions & answers
Lecture 8
- The Biological Pump; Particle Flux
- lecture_08.pdf (370 KB)
- lecture 8: questions & answers
Lecture 9
- Chemical Equilibrium; Ion Complexes; Speciation
- lecture_09.pdf (180 KB)
- lecture 9: questions & answers
Lecture 10
- Remineralization Acid-Base Reactions; Carbonate Chemistry (Alkalinity, DIC)
- lecture_10.pdf (830 KB)
- lecture 10: questions & answers
Lecture 11
- REDOX Chemistry
- lecture_11.pdf (340 KB)
- lecture 11: questions & answers
Lecture 12
- Seawater Composition Changes (global cycles)
- lecture_12.pdf (680 KB)
- lecture 12: questions & answers
Lecture 13
- MHydrothermal Processes
- lecture_13.pdf (1.3 MB)
- lecture 13: questions & answers
Lecture 14
- Marine Sediments
- lecture_15.pdf (460 KB)
- lecture 15: questions & answers
Lecture 15/16
- Radioactive Tracers
- lecture_15.pdf (460 KB)
- lecture 15: questions & answers
- Stable Isotopes
- lecture_16.pdf (300 KB)
- lecture 16: questions & answers
Lecture 17
- Paleoceanography
- lecture_17.pdf (680 KB)
Lecture 1 - Chapter 1 (Mole Balances)
Lecture 2 - Chapter 2 (Conversion and Reactor Sizing)
Lecture 3 - Chapter 3 (Rate Laws)
Lecture 4 - Chapter 4 (Stoichiometry - Liquid systems)
Lecture 5 - Chapter 4 (Stoichiometry - Gas systems)
Lecture 6 - Chapter 5 (CRE Algorithm)
Lecture 7 - Chapter 5 (California Exam Problems)
Lecture 8 - Chapter 5 (Pressure Drop)
Lecture 9 - Chapter 6 (Membrane Reactors)
Lecture 10 - Chapter 6 (Semibatch)
Lecture 11 - Chapter 7 (Analysis of Rate)
Lecture 12 - Chapter 8 (Series Reactions)
Lecture 13 - Chapter 8 (Complex Reactions)
Lecture 14 - Chapter 9 (Non-elementary Rate Laws)
Lecture 15 - Chapter 9 (Bioreactors)
Lecture 16 - Chapter 9 (Biogrowth)
Lecture 17 - Chapter 10 (Steps in a Catalytic Reaction)
Lecture 18 - Chapter 10 (Reaction Mechanism - Chemical Vapor Deposition)
Lecture 19 - Chapter 11 (Energy Balance, Adiabatic Reactors)
Lecture 20 - Chapter 11 (Adiabatic CSTR), Chapter 12 (Heat Exchange in a PFR, Reversible Reactions)
Lecture 21 - Chapter 12 (Reversible Gas Phase Reaction with Heat Effects, Reactor Staging)
Lecture 22 - Chapter 12 (Multiple Steady States)
Lecture 23 - Chapter 12 (Multiple Reactions with Heat Effects)
Lecture 24 - Chapter 13 (Unsteady State Energy Balance, Multiple Steady States)
Lecture 25 - Chapter 13 (Safety in Chemical Reactors)
Lecture 26 - Chapter 14 (Mass Transfer limitations)
Lecture 27 - Chapter 14 (Diffusion and Reaction)
Lecture 28 - Chapter 15 (Diffusion and Reaction)
Lecture 29 - Chapter 15 (Diffusion and Reaction)
Lecture 30 - Chapter 16 (Distribution of Residence Time)
Lecture 31 - Chapter 17 (Models for Nonideal Reactors)
Lecture 32 - Chapter 18 (Predicting Conversion)
Spectroscopy Lecture Notes
Week #1: Electronic structure of atoms
Lecture Notes (PDF 1.35MB)
Week #2: Atoms and radiation, Selection rules
Lecture Notes (PDF 449kB)
Week #3: Collisional excitation/de-excitation of atoms
Lecture Notes (PDF 223kB)
Week #4: Atomic applications
Lecture Notes (PDF 802kB)
Week #5: Rotational spectroscopy
Lecture Eleven, Twelve (PDF 201kB), Lecture Thirteen (08Feb04 PDF 312kB)
Week #6: Vibrational spectroscopy
Lecture Notes (PDF 751kB)
Week #7: Electronic spectroscopy
Lecture Notes (PDF 359 kB)
Week #8: Molecular processes
Lecture Notes (PDF 860kB)
Week #9: Molecular applications
Lecture Twenty-Two, Twenty-Three, Twenty-Four (PDF 4.1 MB)
Supplemental notes on hydrogen formation on grains.
Week #10: Molecular applications (concluded)
Lecture Twenty-Five, Lecture Twenty-Six (PDF 529kB)