Verified Documents at University of Alberta
- Introductory University Chemistry I
- University of Alberta
- Verified Notes
Browse the full collection of course materials, past exams, study guides and class notes for CHEM101 - Introductory University Chemistry I at University of Alberta verified by our …
PROFESSORS
All Professors
All semesters
Rylan Lundgren
winter
31Sai Yiu
fall
36Hashem Taha
fall
1Ran Zhao
fall
9Verified Documents for Sai Yiu
Class Notes
Taken by our most diligent verified note takers in class covering the entire semester.
CHEM101 Lecture 1: Atomic Structure
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CHEM101 Lecture 1: Atomic and Isotopic Masses
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CHEM101 Lecture Notes - Lecture 1: Mass Spectrum, Empty Spaces, Natural Abundance
Why i can understand the sentence from the book: what was in the food substance i ate this morning and why it gave energy for my body"s. There is a com
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CHEM101 Lecture 1: Atomic Structure
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CHEM101 Lecture 2: Particle Nature of Light, Atomic Spectra, Flame Test.
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CHEM101 Lecture Notes - Lecture 2: Uncertainty Principle, Black-Body Radiation, Atomic Orbital
It is crucial to understand how the electrons are arranged in an atom because: electrons are involved in bonding, especially the covalent bond formatio
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CHEM101 Lecture 2: Bohr's Atomic Model
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CHEM101 Lecture 2: Electron Spin Quantum Number, Radial Probability Distributions of Electrons, Electron Density.
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CHEM101 Lecture 2: Shapes of Atomic Orbitals (P and D-Orbitals)
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CHEM101 Lecture 2: Shapes of Atomic Orbitals (S-Orbitals)
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CHEM101 Lecture 2: Names of Atomic Orbitals, Principal Quantum Numbers, Degenerate Orbitals.
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CHEM101 Lecture 2: The Standing Wave, Schrodinger Equation, Quantum Number, Electron Orbitals.
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CHEM101 Lecture 2: Diffraction of Elements, Heisenberg Uncertainty Principle.
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CHEM101 Lecture 2: The Bohr Equation, Limitations of Bohr's Model.
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CHEM101 Lecture 2: CHEM 101 Lecture 2: Quantum Theory: Electromagnetic Radiations, Frequency/Wavelength.
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CHEM101 Lecture 2: Quantum theory and atomic structure
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CHEM101 Lecture Notes - Lecture 3: Electron Density, Bohr Radius, Resultant Force
Electron configuration and the periodic table prelecture notes. This is true only when there is one electron. Energy of atomic orbitals in a hydrogen a
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CHEM101 Lecture 3: Magnetic Properties of the Elements, Periodic Table and Atomic Properties, Core and Valence Electrons, Electrostatic Attraction between Electrons and Nucleus
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CHEM101 Lecture 3: Electron Configuration of Ions, Transition Elements.
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CHEM101 Lecture 3: Electron configuration
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CHEM101 Lecture 3: Effect of Nuclear Charge, Effect of Shielding.
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CHEM101 Lecture 3: Stability of Atomic Orbitals
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CHEM101 Lecture 3: Shielding of Electrons
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CHEM101 Lecture 3: Electron Configuration, Penetration.
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CHEM101 Lecture 4: Columb's Law, Intro to Effective Nuclear Charge and Shielding
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CHEM101 Lecture 4: Periodic trends
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CHEM101 Lecture 4: Effect of Shielding and Distance to Effective Nuclear Charge
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CHEM101 Lecture Notes - Lecture 4: Diamagnetism, Paramagnetism, Electron Configuration
The periodic table can be divided into different blocks. The s block this includes group 1 and 2 elements which have the s orbitals being filled. The p
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CHEM101 Lecture 5: Trends in Ionization Energies, Intro to Electron Affinity
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CHEM101 Lecture 5: Ionization Energy, Periodic Trends of Ionization Energy
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CHEM101 Lecture Notes - Lecture 5: Nonmetal, Effective Nuclear Charge, Atomic Number
Introduction: the physical and chemical properties of the elements show regular periodic trends that can be explained based on the electron configurati
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CHEM101 Lecture 5: Cations and Anions + Their Effect on Effective Nuclear Charge
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CHEM101 Lecture 6: Periodic Trends for Electron Affinity, Metal and Non-Metal Properties, Lewis Diagrams
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CHEM101 Lecture 6: Ionic Bonds
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CHEM101 Lecture 6: Intro to Covalent Bonds
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CHEM101 Lecture Notes - Lecture 14: Positron, Electron Configuration, Strong Tower Radio
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