Emilyyagudayev
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Gen Chem Chapter 0-10 Package
Chapters 0-10 In-Depth Notes Package Deal. Includes steps, visual aids, examples, practice problems, and thorough explanations of each topic.
- Package deal
- • 12 items •
- Chap 0 Matter and Measurements • Class notes
- Chapter 0 Subatomic Particles • Class notes
- Chapter 1 Atoms, Molecules, and Ions • Class notes
- Chapter 2 Stoichiometry and Types of Chemical Reactions • Class notes
- Chapter 3 Solubility, Double Displacement • Class notes
- And more ….
Chapters 0-10 In-Depth Notes Package Deal. Includes steps, visual aids, examples, practice problems, and thorough explanations of each topic.
Chapter 4 Molarity, Dilution, Concentration
Chapter 4 covers molarity, concentration, and dilution with many examples and practice problems!
- Package deal
- Class notes
- • 5 pages •
Chapter 4 covers molarity, concentration, and dilution with many examples and practice problems!
Chapter 9 VSEPR Theory, Polarity, Hybridization, Sigma and Pi Bonds
Chapter 9 covers Lewis structures more in-depth using the VSEPR Theory with electron domains and molecular geometry (lots of visuals and explanations). Polarity and non-polar bonds (with visuals). Hybridization rules and examples, sigma and pi bonds on Lewis structures.
- Package deal
- Class notes
- • 6 pages •
Chapter 9 covers Lewis structures more in-depth using the VSEPR Theory with electron domains and molecular geometry (lots of visuals and explanations). Polarity and non-polar bonds (with visuals). Hybridization rules and examples, sigma and pi bonds on Lewis structures.
Chapter 6 Heat and Energy (Thermodynamics and Calorimetry)
Chapter 6 covers the first law of thermodynamics and formulas, in-depth calorimetry, Hess' law explained with steps and explanations, enthalpies of formation, calculating delta H, practice problems with work and answers.
- Package deal
- Class notes
- • 5 pages •
Chapter 6 covers the first law of thermodynamics and formulas, in-depth calorimetry, Hess' law explained with steps and explanations, enthalpies of formation, calculating delta H, practice problems with work and answers.
Chapter 10 All Gas Laws and Ideal Gases
Chapter 10 covers the equation for ideal gases pv=nrt. Shows 6 different gas laws and practice examples.
- Package deal
- Class notes
- • 1 pages •
Chapter 10 covers the equation for ideal gases pv=nrt. Shows 6 different gas laws and practice examples.
Chapter 8 Bonds and Lewis Structures
Chapter 8 covers bonds (lattice energy, bond enthalpy and calculating delta H, ionic and covalent bonding with brief intro to polarity with more in-depth analysis of polarity in chapter 9).Lewis structures including the octet rule, exceptions, and different bonds. Dipole moments briefly mentioned. Practice problems.
- Package deal
- Class notes
- • 4 pages •
Chapter 8 covers bonds (lattice energy, bond enthalpy and calculating delta H, ionic and covalent bonding with brief intro to polarity with more in-depth analysis of polarity in chapter 9).Lewis structures including the octet rule, exceptions, and different bonds. Dipole moments briefly mentioned. Practice problems.
Chapter 7 Light Energy, Electron Configuration, Ionization
Chapter 7 covers everything on light energy including all the formulas (and how to use them with practice examples), wavelength and frequency, photons, wavelength spectrum and forms of light energy, math of light (constants), photoelectric effect, Bohr model, absorption spectra, emission spectra, subshells of an atom, Heisenberg uncertainty principle, quantum numbers and atomic orbitals, electron configuration, Hund's rule, electronegativity, ionization energy, and atomic radius, practice examp...
- Package deal
- Class notes
- • 6 pages •
Chapter 7 covers everything on light energy including all the formulas (and how to use them with practice examples), wavelength and frequency, photons, wavelength spectrum and forms of light energy, math of light (constants), photoelectric effect, Bohr model, absorption spectra, emission spectra, subshells of an atom, Heisenberg uncertainty principle, quantum numbers and atomic orbitals, electron configuration, Hund's rule, electronegativity, ionization energy, and atomic radius, practice examp...
Chapter 5 In-Depth Oxidation Reduction Reactions
Chapter 5 Oxidation Reduction covers ONLY oxidation reduction reactions within the chapter, an in-depth analysis of the rules and steps to completing these reactions along with examples and practice problems.
- Package deal
- Class notes
- • 6 pages •
Chapter 5 Oxidation Reduction covers ONLY oxidation reduction reactions within the chapter, an in-depth analysis of the rules and steps to completing these reactions along with examples and practice problems.
Chapter 3 Solubility, Double Displacement
Chapter 3 covers solutions and electrolytes, solubility rules, insolubility and exceptions, double displacement reactions with steps (precipitation reactions, acid-base reactions, and gas forming reactions), net ionic equations, balancing, practice examples.
- Package deal
- Class notes
- • 3 pages •
Chapter 3 covers solutions and electrolytes, solubility rules, insolubility and exceptions, double displacement reactions with steps (precipitation reactions, acid-base reactions, and gas forming reactions), net ionic equations, balancing, practice examples.
Chapter 2 Stoichiometry and Types of Chemical Reactions
Chapter 2 covers balancing chemical equations, types of chemical reactions such as combination, decomposition, combustion, double replacement reactions (metathesis), and single replacement reactions (oxidation reduction), calculations with moles, finding mass percent, empirical and molecular formulas, and limiting reagents/reactant problems with examples, theoretical and percent yield.
- Package deal
- Class notes
- • 2 pages •
Chapter 2 covers balancing chemical equations, types of chemical reactions such as combination, decomposition, combustion, double replacement reactions (metathesis), and single replacement reactions (oxidation reduction), calculations with moles, finding mass percent, empirical and molecular formulas, and limiting reagents/reactant problems with examples, theoretical and percent yield.