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Advanced General Chemistry I
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Related lectures (29)
Electronic Structure of Atoms: Hydrogen Atom
Explores the electronic structure of the hydrogen atom, covering radial wave functions, quantum numbers, and orbital sublayers.
Electronic Structure of Atoms: Hydrogen Atom
Explores the electronic structure of atoms, emphasizing the hydrogen atom's characteristics and quantum properties.
Advanced General Chemistry I: Angular Wave Functions
Explores angular wave functions, electron orbitals, and quantum numbers in hydrogen atoms.
Electronic Structure of Atoms: Wave Functions and Quantum Numbers
Explores wave functions, quantum numbers, and orbital shapes in the electronic structure of atoms.
Advanced General Chemistry I: Atomic Structure
Explores the emission spectrum of hydrogen, wave functions, and probability density of electron distribution.
Atomic Structure: Quantum Mechanics
Covers atomic theory, Schrödinger equation, quantum numbers, electron configurations, and periodic properties of elements.
Quantum Atom Model
Explores the quantum atom model, including orbitals, electron configurations, and the Pauli exclusion principle.
Atomic Structure: Quantum Numbers and Orbitals
Explores atomic structure, quantum numbers, orbitals, and the uncertainty principle in defining electron states and shapes.
Quantum Atom Model
Explores the quantum model of the atom, electron configuration, orbital shapes, and stability.
Molecular Structure: Intramolecular Electron Delocalization
Discusses molecular structure and intramolecular electron delocalization, focusing on quantum mechanics and the transition from atomic to molecular orbitals.
Quantum Mechanical Model: Wavefunction
Explores the Quantum Mechanical Model, including wave-particle duality, the uncertainty principle, and electron orbitals.
Quantum Mechanics: Atomic to Molecular Orbitals
Explores quantum mechanics from atomic to molecular orbitals, covering the Schrödinger equation, quantum numbers, and wavefunction interpretation.
Atomic Structure: Energy Levels and Quantum Numbers
Explains electron energy levels, quantum numbers, and electron distribution in orbitals.
Angular Schrödinger Equation: Spherical Harmonics and Legendre Functions
Explores the angular Schrödinger equation, spherical harmonics, Legendre functions, and quantum numbers in defining electron states.
Atomic Theory Breakthroughs
Explores the historical development of atomic theory, limitations of the Bohr model, wave-particle duality, and key breakthroughs in quantum theory.
Electronic Structure of Atoms: Quantum World
Explores the electronic structure of atoms through Schrödinger's equation and quantum numbers.
Atomic Structure: Bohr Model and Electron Configuration
Explores the Bohr model of the atom and electron configuration in detail.
Quantum Mechanics: Energy Levels
Explores energy levels of particles, hydrogen-like atoms, quantum numbers, molecular bonding, and vibrational states.
Hydrogen Atom: Schrödinger Equation
Explores the historical atomic models, Schrödinger equation for hydrogen atom, and quantum numbers.
Quantum Numbers and Electron Configuration
Explores quantum numbers, electron configuration, valence electrons, and chemical properties of elements.
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