CHM 1020 - Chemistry II

• Plan and create structured experiments; conduct an experiment properly; collect appropriate data and observations, and analyze and interpret data
• Qualitatively predict chemical equilibria and quantitatively perform equilibria calculations
• Identify and compare solid structures, and relate density to crystal structure
• Explain and quantify the molecular level changes that occur during oxidation reduction reactions, corrosion; the operation of an electrochemical cell; and acid dissociation, base dissociation, hydrolysis, solubility, precipitation, neutralization, and buffer systems
• Describe typical sizes of atoms, molecules, and bonds
• Explain at the molecular level how temperature, concentration, catalysts, and surface area affect the rate, the rate law, and the activation energy of a reaction
• Identify common acids, bases, and ionic compounds, including organic acids and bases
• Predict spontaneity of chemical reactions and phase changes using thermodynamic concepts of Gibbs free energy, entropy, and enthalpy
• Describe properties of colloids and single-phase mixtures and pure substances; explain the role intermolecular forces in phase changes of pure substances, solutions, and colloids
• Predict crystal field diagrams for transition metal complexes and estimate crystal field splitting energy
• Identify isomers of coordination compounds
• Compare properties of solutions to one another and to properties of pure liquids
• Draw structures of complex ions and complex ion compounds
• Recognize common functional groups including alkenes, alkynes, alcohols, amines, carboxylic acids and explain their general properties
• Describe polymerization reactions for condensation and addition polymers
• Identify common organic functional groups
• Recognize organic reactions such as hydrogenation of alkenes, hydration of alkenes, amide formation and ester formation

• Classification and properties of matter, atomic structure, and periodic relationships
• Chemical bonding, Lewis dot structure, molecular geometry and polarity, and intermolecular forces
• Gases
• Mass and enthalpy relationships in chemical reactions
• Solutions, molarity, pH
• Types of chemical reactions (acid-base, oxidation-reduction and precipitation)
• Qualitative overview of chemical equilibrium, corrosion and reaction rates

• Properties of liquids and solutions
• Colloids and surfactants
• Crystalline materials
• Chemical kinetics
• Chemical equilibria
• Acid-base chemistry and buffers
• Thermodynamics
• Transition metal chemistry
• Electrolysis, corrosion and batteries
• Organic chemistry

• Properties of liquids
• Solution chemistry and colligative properties
• Structures of solids and their properties
• Chemical kinetics
• Le Chatelier’s principle
• Acid-base chemistry
• Buffers
• Acid-base titrations
• Chemistry of transition metals
• Thermodynamics
• Electrochemistry
• Corrosion
• Coordination chemistry