(using one of many free smart-phone scanning apps). or the lowest two lecture engagement scores. both violates copyright and interferes with the academic mission of the College, Click "Sign in using your BU Login Name and password. Atomic and molecular structure of matter. The Texas Instruments TI-30X IIS 2-Line Scientific Calculator. In this way, you will have a measure of how you are doing at that point in the course. structure, course policies or anything else. All students at Boston University are expected to maintain high Students will interpret quantitative models of how energy and light interact with atoms or molecules and understand student code of responsibility that is subject to academic sanctions. [INSTRUCTORS: We have included general Student Learning Outcomes here as a place holder. As with all sections, feel free to keep this information, replace it with your local student learning outcomes, or remove this section entirely.]. The course consists of three required components: If you have not yet registered for all of the three components of the course, please do so right away. Experimental Chemistry and Introduction to Matter Lesson Plans, Practice test: Experimental Chemistry and Introduction to Matter Lesson Plans, Ch 2. The first discussion isÂ. You are welcome to attend any of the office hours. Click on "Zoom meetings links" to access the online meeting for your lab section. Stoichiometry: General Chemistry Lesson Plans, Practice test: Stoichiometry: General Chemistry Lesson Plans, Ch 10. All submitted regrade requests will be evaluated an the outcome communicated to you by email. (You do not need to buy the bundle with a clicker unless you will need the physical clicker for other courses in the future). refined, refuted, and confirmed. Chances are others are experiencing similar difficulties and you will be able to learn from their questions too. Quizzes and the final exam will be submitted online, and to do this you are required to have one of the following. and the distribution of overall scores so far will be posted Services, Lesson 1 - The Metric System: Units and Conversion, Lesson 2 - Unit Conversion and Dimensional Analysis, Lesson 3 - Significant Figures and Scientific Notation, Lesson 4 - Chemistry Lab Equipment: Supplies, Glassware & More, Lesson 5 - Matter: Physical and Chemical Properties, Lesson 6 - States of Matter and Chemical Versus Physical Changes to Matter, Lesson 7 - Chromatography, Distillation and Filtration: Methods of Separating Mixtures, Experimental Chemistry and Introduction to Matter Lesson Plans, Lesson 2 - Early Atomic Theory: Dalton, Thomson, Rutherford and Millikan, Lesson 3 - Isotopes and Average Atomic Mass, Lesson 4 - Avogadro's Number: Using the Mole to Count Atoms, Lesson 5 - Electron Configurations in Atomic Energy Levels, Lesson 6 - Four Quantum Numbers: Principal, Angular Momentum, Magnetic & Spin, Lesson 7 - The Bohr Model and Atomic Spectra, Lesson 1 - The Periodic Table: Properties of Groups and Periods, Lesson 2 - Valence Electrons and Energy Levels of Atoms of Elements, Lesson 3 - Atomic and Ionic Radii: Trends Among Groups and Periods of the Periodic Table, Lesson 4 - Ionization Energy: Trends Among Groups and Periods of the Periodic Table, Lesson 5 - Electronegativity: Trends Among Groups and Periods of the Periodic Table, Lesson 6 - The Diagonal Relationship, Metallic Character, and Boiling Point, Lesson 7 - Transition Metals vs. Main Group Elements: Properties and Differences, The Periodic Table: General Chemistry Lesson Plans, Lesson 1 - Types of Radioactive Decay and Their Effect on the Nucleus, Lesson 2 - Balancing Nuclear Equations & Predicting the Product of a Nuclear Reaction, Lesson 3 - Half-life: Calculating Radioactive Decay and Interpreting Decay Graphs, Lesson 4 - Mass-Energy Conversion, Mass Defect and Nuclear Binding Energy, Lesson 5 - Fusion, Fission, Carbon Dating, Tracers & Imaging: Applications of Nuclear Chemistry, Nuclear Chemistry: General Chemistry Lesson Plans, Lesson 1 - The Octet Rule and Lewis Structures of Atoms, Lesson 2 - Ions: Predicting Formation, Charge, and Formulas of Ions, Lesson 3 - Ionic Compounds: Formation, Lattice Energy and Properties, Lesson 4 - Naming Ionic Compounds: Simple Binary, Transition Metal & Polyatomic Ion Compounds, Lesson 5 - Writing Ionic Compound Formulas: Binary & Polyatomic Compounds, Lesson 6 - Covalent Compounds: Properties, Naming & Formation, Lesson 7 - Lewis Structures: Single, Double & Triple Bonds, Lesson 8 - Lewis Dot Structures: Polyatomic Ions, Lesson 9 - Lewis Dot Structures: Resonance, Lesson 10 - Covalent Bonds: Predicting Bond Polarity and Ionic Character, Lesson 11 - VSEPR Theory & Molecule Shapes, Lesson 12 - Dipoles & Dipole Moments: Molecule Polarity, Lesson 13 - Hydrogen Bonding, Dipole-Dipole & Ion-Dipole Forces: Strong Intermolecular Forces, Lesson 14 - London Dispersion Forces (Van Der Waals Forces): Weak Intermolecular Forces, Lesson 15 - Using Orbital Hybridization and Valence Bond Theory to Predict Molecular Shape, Lesson 16 - Molecular Orbital Theory: Tutorial and Diagrams, Lesson 17 - Metallic Bonding: The Electron-Sea Model & Why Metals Are Good Electrical Conductors, Lesson 18 - Intramolecular Bonding and Identification of Organic and Inorganic Macromolecules, Lesson 19 - Organic Molecules: Alkanes, Alkenes, Aromatic Hydrocarbons and Isomers, Lesson 20 - Functional Groups in Organic Molecules, Chemical Bonding: General Chemistry Lesson Plans, Lesson 1 - The Kinetic Molecular Theory: Properties of Solids and Liquids, Lesson 2 - Phase Diagrams: Critical Point, Triple Point and Phase Equilibrium Boundaries, Lesson 3 - Phase Changes and Heating Curves, Lesson 4 - Crystal Structures and the Unit Cell, Liquids and Solids: General Chemistry Lesson Plans, Lesson 1 - The Kinetic Molecular Theory: Properties of Gases, Lesson 2 - Pressure: Definition, Units, and Conversions, Lesson 3 - Temperature Units: Converting Between Kelvin and Celsius, Lesson 4 - Dalton's Law of Partial Pressures: Calculating Partial & Total Pressures, Lesson 5 - The Boltzmann Distribution: Temperature and Kinetic Energy of Gases, Lesson 6 - Diffusion and Effusion: Graham's Law, Lesson 7 - Molar Volume: Using Avogadro's Law to Calculate the Quantity or Volume of a Gas, Lesson 8 - Boyle's Law: Gas Pressure and Volume Relationship, Lesson 9 - Charles' Law: Gas Volume and Temperature Relationship, Lesson 10 - Gay-Lussac's Law: Gas Pressure and Temperature Relationship, Lesson 11 - The Ideal Gas Law and the Gas Constant, Lesson 12 - Using the Ideal Gas Law: Calculate Pressure, Volume, Temperature, or Quantity of a Gas, Lesson 13 - Real Gases: Deviation From the Ideal Gas Laws, Lesson 14 - Real Gases: Using the Van der Waals Equation, Lesson 1 - The Rate of Dissolution: Factors and Definition, Lesson 2 - Solutions, Electrolytes and Nonelectrolytes, Lesson 3 - Solubility and Solubility Curves, Lesson 4 - Calculating Molarity and Molality Concentration, Lesson 5 - Calculating Dilution of Solutions, Lesson 6 - Using Colligative Properties to Determine Molar Mass, Lesson 7 - Colligative Properties and Raoult's Law, Solutions: General Chemistry Lesson Plans, Lesson 1 - Chemical Reactions and Balancing Chemical Equations, Lesson 2 - Mole-to-Mole Ratios and Calculations of a Chemical Equation, Lesson 3 - Mass-to-Mass Stoichiometric Calculations, Lesson 4 - Stoichiometry: Calculating Relative Quantities in a Gas or Solution, Lesson 5 - Limiting Reactants & Calculating Excess Reactants, Lesson 6 - Calculating Reaction Yield and Percentage Yield from a Limiting Reactant, Lesson 7 - Calculating Percent Composition and Determining Empirical Formulas, Lesson 8 - Hydrates: Determining the Chemical Formula From Empirical Data, Stoichiometry: General Chemistry Lesson Plans, Lesson 1 - Decomposition and Synthesis Reactions, Lesson 2 - The Arrhenius Definition of Acids and Bases, Lesson 3 - The Bronsted-Lowry and Lewis Definition of Acids and Bases, Lesson 4 - Neutralization and Acid-Base Reactions, Lesson 5 - Dissociation Constant and Autoionization of Water, Lesson 6 - The pH Scale: Calculating the pH of a Solution, Lesson 7 - Coordination Chemistry: Bonding in Coordinated Compounds, Lesson 8 - Precipitation Reactions: Predicting Precipitates and Net Ionic Equations, Lesson 9 - Assigning Oxidation Numbers to Elements in a Chemical Formula, Lesson 10 - Balancing Redox Reactions and Identifying Oxidizing and Reducing Agents, Lesson 11 - The Activity Series: Predicting Products of Single Displacement Reactions, Lesson 12 - Electrochemical Cells and Electrochemistry, Lesson 13 - Cathode and Anode Half-Cell Reactions, Lesson 14 - Writing and Balancing Combustion Reactions, Chemical Reactions: General Chemistry Lesson Plans, Lesson 1 - Equilibrium: Chemical and Dynamic, Lesson 2 - LeChatelier's Principle: Disruption and Re-Establishment of Equilibrium, Lesson 3 - Equilibrium Constant (K) and Reaction Quotient (Q), Lesson 4 - Using a RICE Table in Equilibrium Calculations, Lesson 5 - Solubility Equilibrium: Using a Solubility Constant (Ksp) in Calculations, Lesson 6 - The Common Ion Effect and Selective Precipitation, Lesson 7 - Acid-Base Equilibrium: Calculating the Ka or Kb of a Solution, Lesson 8 - Acid-Base Buffers: Calculating the pH of a Buffered Solution, Lesson 9 - Titration of a Strong Acid or a Strong Base, Lesson 10 - Titrations with Weak Acids or Weak Bases, Equilibrium: General Chemistry Lesson Plans, Lesson 1 - Rate of a Chemical Reaction: Modifying Factors, Lesson 3 - Rate of a Chemical Reaction: Effect of Temperature, Lesson 4 - Activation Energy and Catalysts, Lesson 5 - Reaction Mechanisms and The Rate Determining Step, Lesson 1 - State Functions in Thermochemistry, Lesson 2 - Enthalpy: Energy Transfer in Physical and Chemical Processes, Lesson 3 - Using Hess's Law to Calculate the Change in Enthalpy of a Reaction, Lesson 4 - Calorimetry: Measuring Heat Transfer and Heat Capacity, Lesson 5 - Predicting the Entropy of Physical and Chemical Changes, Lesson 6 - Free Energy: Predicting the Spontaneity of a Reaction, Lesson 7 - The Relationship Between Enthalpy (H), Free Energy (G) and Entropy (S), Lesson 8 - Electrochemistry: Free Energy and Cell Potential Energy, Lesson 9 - The Relationship Between Free Energy and the Equilibrium Constant, Thermodynamics: General Chemistry Lesson Plans, Educational Videos Help Teacher to Make Online Courses More Engaging, How Tech Can Help Teachers Create Engaging Lesson Plans, Lesson Plan Design Courses and Classes Overview, How Teachers Use Video Lessons to Help ADHD Students Learn, Distance Education Courses That Can Help Teachers Relocate Easily, List of Free Online Chinese Language Courses and Video Lessons, Flip Your Classroom with Study.com's Engaging Video Lessons, Free Online Cinematography Classes, Lessons & Course Materials, GED Study Guide Information on the Internet, Saylor.org Wants You to Become an Open Textbook Bounty Hunter, The Green Report: The Princeton Review Releases Third Annual Environmental Ratings of U.S.

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