1st Edition
CHEM 1312H: Adv Freshm Chem Ii
School: University of Georgia (UGA )
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Pages: 2Introduction to thermodynamics; lecture over state functions, the 1st law, and enthalpy changes -
Pages: 3Notes covering solubility, Henry's Law, Raoult's Law, and colligative properties -
Pages: 2Introductory lecture to material in chapter 13, with concepts from solubility -
Pages: 2Continuation of the solubility concepts we've been covering in lecture -
Pages: 2Introductory lecture to solubility and how to calculate concentrations based on having a Ksp value -
Pages: 2Lecture including problems reworked from Wednesday class and a deeper look into buffers and pH -
Pages: 2Multiple ICE table examples using problems that include buffers -
Pages: 2Introductory lecture over titrations, continuation of our discussion covering acids and bases -
Pages: 4Summation of lecture material covering acids and bases -
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Pages: 2Recap and review of Le Chatelier's Principle with stresses on a closed system's equilibrium, as well as an example problem -
Pages: 2How to calculate the percent dissociation for a compound using equilibrium principles -
Pages: 4Continuation of Kutal's lectures on chemical equilibrium; notes over how to calculate Kc and Q, and what comparisons of Q with K mean about the course of the reaction. -
Pages: 2Lecture notes over the introduction to chemical equilibrium; figuring out Kc and Kp from a balanced equation -
Pages: 2Two examples of problems calculated in class involving rate laws and concentrations -
Pages: 3Different types of reaction rates, examples with how to calculate rate laws, factors that influence reaction rates -
Pages: 2Example covered in class of how to calculate the rate of a reaction -
Pages: 7Lectures notes from 2/11 covering introduction to reactions, as well as notes from the 23.5 and 14.1-5 reading -
Pages: 2Illustrations of different orbital paths for electrons -
Pages: 2Includes pertinent information given in Lecture 11 and also the notes from assigned readings in the textbook (23.4-5) -
Pages: 4Notes from introduction lecture to transition metals, as well as the notes from 7.2 on effective nuclear charge and 23.1-3 from the assigned reading -
Pages: 2Discussion of crosslinking polymers; discussion of two methods that lead to crosslinking, reintroduction to the Electron Sea Model and Molecular Orbit Model and introduction to the band gap model *special thanks to Samia McEachin for her notes while I was unable to attend class due to illness -
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Pages: 7Lecture 5 with Dr. Kutal (includes notes from the assigned readings); covers metallic, ionic, covalent-network, and molecular solids, as well as alloys and unique structures -
Pages: 5Lecture 2 with Dr. Kutal - continues to discuss the intermolecular forces such as LDF, dipole-dipole, and H-bonding that are responsible for holding molecules together.