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Lecture
Crystal Field Effects: High Spin Low Spin
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Quantum Atom Model
Explores the quantum atom model, including orbitals, electron configurations, and the Pauli exclusion principle.
Wave Model of the Atom
Explores the wave model of the atom, orbitals, quantum numbers, and electron configurations.
Ligand Field Theory: Crystal Field Splitting
Delves into ligand field theory, crystal field splitting, and molecular orbitals in transition metal complexes.
Atomic Structure: Quantum Mechanics
Covers atomic theory, Schrödinger equation, quantum numbers, electron configurations, and periodic properties of elements.
Quantum Atom Model
Explores the quantum model of the atom, electron configuration, orbital shapes, and stability.
Crystal Field Effects: Overview
Explores crystal field effects, from orbitals in charged environments to spin states in transition metals.
Quantum Numbers and Electron Configuration
Explores quantum numbers, electron configuration, valence electrons, and chemical properties of elements.
Electron Configurations and Quantum Physics
Explores electron configurations, quantum numbers, and the implications of electron spin.
Molecular Orbitals: Bonding and Hybridization
Explores the transition from atomic to molecular orbitals, covering quantum systems, approximations, valence electrons, and covalent bonds.
Crystal Field Theory: Spectrochemical Series
Explores the Spectrochemical Series for metals and ligands, Crystal Field Splitting, Jahn-Teller distortion, and bonding interactions in coordination compounds.
