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Lecture
Basic Concepts in Organic Chemistry
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Related lectures (32)
Chemical Bonding: Resonance Structures and Covalent Bonds
Explores resonance structures, covalent bonds, radicals, and molecular shapes in chemical bonding.
Ligand Field Theory: Crystal Field Splitting
Delves into ligand field theory, crystal field splitting, and molecular orbitals in transition metal complexes.
Hydrogen Molecule: Electronic Structure
Delves into the electronic structure of the hydrogen molecule, including wavefunctions, bonding, energy levels, and molecular orbitals.
Molecular Orbitals: Bonding and Hybridization
Explores the transition from atomic to molecular orbitals, covering quantum systems, approximations, valence electrons, and covalent bonds.
Acid-Base Equilibria
Explores acid-base equilibria, including pH calculations for weak acids and bases, diacids, strong/weak bases, and salt solutions.
Advanced General Chemistry: Organic Part
Explores advanced organic chemistry topics, including acidity, molecular models, and resonance stabilization.
Organic Chemistry: Atomic Orbitals and Molecular Bonds
Explores atomic orbitals, molecular bonds, and bond formation in organic chemistry.
Organic Chemistry: Functional Groups and Resonance
Covers functional groups, acid-base reactions, and resonance in organic chemistry.
Atomic Structure: Real Atom
Explores the real atom, electron distribution rules, molecular and band structure computation methods, and the Born-Oppenheimer approximation.
Quantum Mechanics: Schrödinger Equation
Explores the Schrödinger Equation, quantum numbers, atomic orbitals, and molecular orbital theory in quantum mechanics.
Basic Notions of Organic Chemistry
Introduces basic notions of organic chemistry, covering functional groups, chemical bonding, electronegativity, and practical applications in various fields.
Chemical Bonds: Hybridization and Molecular Geometry
Explores chemical bonds, hybridization, molecular geometry, and intermolecular forces, emphasizing the role of orbitals and valence electrons.
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