# Chemistry 1050

**Dr. David Thompson's Webpage Winter 2015**

Chemistry 1050 Assignment January 20, 2014

Summary of the Material Covered in Chemistry 1050 Winter 2014

**Lecture Notes Winter 2014**

**Introductory Notes to the Course and Test Dates**

Introduction to Gases

The Gas Laws

Ideal Gas Law: Applications of the Ideal Gas Law

Gases and Rxn Stoichiometry

Mixtures of Gases and Partial Pressures

Kinetic Molecular Theory of Gases

Mean - Free Path, Diffusion and Effusion of Gases

Real vs. Ideal Gases

Thermochemistry - Definitions and Terminology

First Law of Thermochemistry

States, State Functions and Path Dependent Functions

Defining a New State Function

Enthalpy Diagrams

Extensive vs. Intensive Properties

Heat Mol Conversions

Heat and Phase Changes

Heat and Changes in Temperature

Calorimetry - The Science of Measuring Heat

Applications of Calorimeters to Measure Heats of Reactions

Determination of Enthalpies of Rxns and Standard States

Using Hess's Law

Reactions Involving Aqueous Ions

Heating Curves

Chapter 6 Topics Covered

Introduction to the Quantum Mechanical Model of the Atom; There is an Elephant in the Room.

Electromagnetic Radiation

Black-Body Radiation

Photoelectric Effect

The Bohr Atom

Particle - Wave Duality

Heisenberg Uncertainity Principle

Solution of the SWE: Quantum Numbers

Solution of the SWE for the H atom: The Shapes of Atomic Orbitals

Electron Configurations: in Multi-Electron Atoms

Quantum Numbers and Electron Configurations

Periodic Properties of the Elements. Chapter 8

Overview of Chapter 7 and 8

Introduction - Lewis Theory

Lewis Theory II - Bond lengths, Bond Strengths

Lewis Theory Continued Exceptions to the Octet Rule

Lewis Theory Continued - Polar Covalent Bonds

Chapter 11: Intermolecular Forces I

Chapter 11: Intermolecular Forces and Vapour Pressure

Chapter 11: Intermolecular Forces and the Properties of Liquids

VSEPR Theory and Molecular Shapes (Bonding Chapter 10)

Valence Bond Theory (Chapter 10)

MO Theory (Chapter 10)

Solutions (Chapter 12)

Introduction to Gases

The Gas Laws

Ideal Gas Law: Applications of the Ideal Gas Law

Gases and Rxn Stoichiometry

Mixtures of Gases and Partial Pressures

Kinetic Molecular Theory of Gases

Mean - Free Path, Diffusion and Effusion of Gases

Real vs. Ideal Gases

Thermochemistry - Definitions and Terminology

First Law of Thermochemistry

States, State Functions and Path Dependent Functions

Defining a New State Function

Enthalpy Diagrams

Extensive vs. Intensive Properties

Heat Mol Conversions

Heat and Phase Changes

Heat and Changes in Temperature

Calorimetry - The Science of Measuring Heat

Applications of Calorimeters to Measure Heats of Reactions

Determination of Enthalpies of Rxns and Standard States

Using Hess's Law

Reactions Involving Aqueous Ions

Heating Curves

Chapter 6 Topics Covered

Introduction to the Quantum Mechanical Model of the Atom; There is an Elephant in the Room.

Electromagnetic Radiation

Black-Body Radiation

Photoelectric Effect

The Bohr Atom

Particle - Wave Duality

Heisenberg Uncertainity Principle

Solution of the SWE: Quantum Numbers

Solution of the SWE for the H atom: The Shapes of Atomic Orbitals

Electron Configurations: in Multi-Electron Atoms

Quantum Numbers and Electron Configurations

Periodic Properties of the Elements. Chapter 8

Overview of Chapter 7 and 8

Introduction - Lewis Theory

Lewis Theory II - Bond lengths, Bond Strengths

Lewis Theory Continued Exceptions to the Octet Rule

Lewis Theory Continued - Polar Covalent Bonds

Chapter 11: Intermolecular Forces I

Chapter 11: Intermolecular Forces and Vapour Pressure

Chapter 11: Intermolecular Forces and the Properties of Liquids

VSEPR Theory and Molecular Shapes (Bonding Chapter 10)

Valence Bond Theory (Chapter 10)

MO Theory (Chapter 10)

Solutions (Chapter 12)

**Lecture Notes Winter 2013**

**Introduction to Gases**

Liquid Pressure

Empirical Gas Laws

Applications of the Ideal Gas Law

Gases and Stoichiometry

Law of Combining Volumes

Dalton's Law of Partial Pressures

Equilibrium Vapour Pressure

Kinetic Molecular Theory of Gases

Graham's Law of Effusion and Real Gaseous

Chapter 7. Thermochemistry

Chapter 8 Introduction

Atomic Line Spectra and Fundamental Problems in Classical Physics

Black-Body Radiation

The photo-electric Effect

Liquid Pressure

Empirical Gas Laws

Applications of the Ideal Gas Law

Gases and Stoichiometry

Law of Combining Volumes

Dalton's Law of Partial Pressures

Equilibrium Vapour Pressure

Kinetic Molecular Theory of Gases

Graham's Law of Effusion and Real Gaseous

Chapter 7. Thermochemistry

Chapter 8 Introduction

Atomic Line Spectra and Fundamental Problems in Classical Physics

Black-Body Radiation

The photo-electric Effect

**Gap Notes Winter 2013**

Pressure-Volume Work, State functions, Path dependent functions and Enthalpy

Chapter 7 - Heat and Temperature, Heat Capacities and Calorimetry

Bomb Calorimetry and Hess's Law

**Completed Notes Winter 2013**

Pressure - Volume Work

States, State Functions and Path Dependent Functions

Enthalpy and Enthalpy Diagrams

Extensive Properties and Intensive Properties

Heat Mol Conversions

Heat and Phase Changes

Heat and Temperature Change

Calorimetry: Science of Measuring Heat

Applications of Calorimeters to Measure Heats of Reactions

The Bomb Calorimeter

Hess's Law

Standard Enthalpy Changes and Heating Curves

Photons of Light and Chemical Reactions

The Bohr Atom

Particle-wave Duality

Heisenberg Uncertainty Principle

Wave Mechanics

Wave Mechanics Cont'd.

Quantum Numbers and Electron Orbitals

The Periodic Table and Atomic Properties

Chapter 10 Chemical Bonding 1

Evolution of our understanding of the chemical bonding

Valence Bond Theory II Revised

Chapter 12 Liquids Solids and Intermolecular Forces

Intemolecular Forces

Intemolecular Forces and the Properties of Liquids

Intemolecular Forces and Vapour Pressure

Chapter 12: Some Properties of Solids and Heating Curves - Phase Diagrams

Chapter 13: Solutions and Their Physical Properties

Solutions and the Energetics of Solvation

Solubility of Gases' Henry's Law

Vapour Pressure of Solutions (Raoult's Law)

Osmotic Pressure

Van't Hoff Factors

MO Theory; First Row Diatomics

MO Theory; MO's of the Second Period

**Lecture Notes from Fall 2010**

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