Skip to main content
Back

CHEM 192: Principles of Chemistry II – Syllabus and Study Guide

Study Guide - Learn with Videos

Curated lessons matched to your uploaded material – learn every topic step by step.

Dimensional Analysis

Significant Figures

Naming Ionic Compounds

Naming Molecular Compounds

Empirical Formula

Molecular Formula

Balancing Chemical Equations

Stoichiometry

Limiting Reagent

Percent Yield

First Law of Thermodynamics

Enthalpy of Formation

Hess's Law

Quantum Numbers: Principal Quantum Number

Quantum Numbers: Angular Momentum Quantum Number

Quantum Numbers: Magnetic Quantum Number

Quantum Numbers: Spin Quantum Number

The Electron Configuration

Periodic Table: Classifications

Periodic Trend: Atomic Radius

Periodic Trend: Ionization Energy

Periodic Trend: Electron Affinity

Periodic Trend: Electronegativity

Gas Stoichiometry

The Ideal Gas Law

Chemistry Gas Laws

Kinetic Molecular Theory

Intermolecular Forces

Phase Diagrams

Solutions

Molarity

The Colligative Properties

Intro to Chemical Kinetics

Rate Law

Arrhenius Equation

Intro to Chemical Equilibrium

Le Chatelier's Principle

Equilibrium Constant K

Acids Introduction

Bases Introduction

Arrhenius Acids and Bases

Bronsted-Lowry Acids and Bases

Lewis Acids and Bases

The pH Scale

Ka and Kb

pH of Strong Acids and Bases

Intro to Buffers

Henderson-Hasselbalch Equation

Titrations: Weak Acid-Strong Base

Titrations: Weak Base-Strong Acid

Titrations: Strong Acid-Strong Base

Solubility Product Constant: Ksp

Spontaneous vs Nonspontaneous Reactions

Entropy

Gibbs Free Energy

Gibbs Free Energy Calculations

Gibbs Free Energy And Equilibrium

Standard Reduction Potentials

Intro to Electrochemical Cells

Galvanic Cell

Electrolytic Cell

Cell Potential: Standard

Cell Potential: The Nernst Equation

Cell Potential and Gibbs Free Energy

Cell Potential and Equilibrium

Cell Potential: G and K

Intro to Radioactivity

Alpha Decay

Beta Decay

Gamma Emission

Electron Capture & Positron Emission

Rate of Radioactive Decay

Radioactive Half-Life

Mass Defect

Nuclear Binding Energy