CHEM 1120: Principles of Chemistry II
School: University of Iowa (UI )
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From: GradeBuddy Pages: 5Lecture 23 Notes Include: explanation of coordination numbers and example; discussion of the chelate effect, thermodynamic stability, and kinetic lability; discussion about nomenclature of complexes and example; details about the different types of isomers -
From: GradeBuddy Pages: 4Lecture 22 Notes Include: discussion of transition metal properties; review of trends; summary of magnetism and ferromagnetism; discussion of complexes and ligands -
From: GradeBuddy Pages: 4Lecture 21 Notes Include: discussion of group 6A elements; discussion of the nitrogen family; discussion of groups 4A and 3A; discussion of allotropes -
From: GradeBuddy Pages: 4Lecture 20 Notes Include: Discussion of the noble gases; discussion of the halogen family; discussion of the oxygen family -
From: GradeBuddy Pages: 4Lecture 19 Notes Include: discussion and review of periodic trends; discussion of classes of elements; overview of hydrogen and its uniqueness -
From: GradeBuddy Pages: 6Lecture 18 Notes Include: information on solubility and the solubility product and an example; descriptions of the four factors affecting solubility; quick discussion of how scientists used to experiment with solubility -
From: GradeBuddy Pages: 6Lecture 17 Notes Include: description and detailed examples of a weak acid-strong base titration; information on diprotic acids and their titration curves; 4 titration curve examples; information on indicators -
From: GradeBuddy Pages: 5Lecture 16 Notes include: discussion of buffer capacity and example; review and discussion of titrations; review of stoichiometric neutralization calculations; general strategy to solve titration calculations and examples of each; discussion of titration curves -
From: GradeBuddy Pages: 6Lecture 15 Notes Include: definition of common ion effect; example of common ion effect; description of buffers and the Henderson-Hasselbalch equation; discussion of how pH is affected when adding acid to buffer vs water -
From: GradeBuddy Pages: 4Lecture 14 Notes Include: Discussion of weak bases; Discussion of the relationship between K for acids vs bases; Examples of acidic and basic salts; Discussion of Lewis acids and bases -
From: GradeBuddy Pages: 5Lecture 13 Notes Include: review of strong acids and bases; discussion and examples of calculating the equilibrium expressions for acid dissociations; examples involving polyprotic acids -
From: GradeBuddy Pages: 8Includes short recaps of each previous lecture, 1-11, to start studying for the first exam -
From: GradeBuddy Pages: 6Lecture 12 Notes Include: discussion of Bronsted-Lowry acids and bases; conjugate acids and bases; pH example; small review of strong acids and bases -
From: GradeBuddy Pages: 6Lecture 11 Notes Include: discussion of ways to detect radiation; notes on the mass defect and Einstein's equation; descriptions and examples of fission and fusion; short discussion of radiation in the environment -
From: GradeBuddy Pages: 3Discuss how energy is harnessed from nuclear reactions from fission and fusion. Also the applications and where these reactions occur artificially. -
From: GradeBuddy Pages: 8Discuss radioactive decay along with methods and applications for radioactive decay. -
From: GradeBuddy Pages: 5Lecture 10 Notes Include: discussion of nuclear radioactivity; discussion of radioactivity series and transmutation; examples and graphs for the previous; discussion of particle accelerators; decay rate equation and examples to go along with it; discussion of Carbon-14 Dating and example -
From: GradeBuddy Pages: 9Lecture 9 Notes Include: discussion of chemical vs nuclear reactions; review of nucleus; definitions of words to do with nuclear reactions; how to balance nuclear reactions; descriptions of the modes of radioactive decay -
From: GradeBuddy Pages: 3Discuss nuclear vs. chemical reactions. We also discuss radioactivity and the types of radioactive decay there are. -
From: GradeBuddy Pages: 2Discuss reaction mechanisms within reactions and then move onto a brief introduction on catalysts.