Lectures related to Hartree-Fock Equations: HeH+ Implementation

Electronic Structure: Hamiltonian and Orbitals

Covers the electronic structure in quantum physics, focusing on the Hamiltonian operator and the concept of orbitals.

Explores electron density in chemistry, from atomic models to machine learning applications and implications for molecular properties and drug design.

Basis Sets: Types and Functional Forms

Explores basis sets in quantum chemistry, covering STOs, GTOs, and contracted Gaussian-Type Orbitals.

Basis Sets I

Explores the solution of the Schrödinger equation for many-electron systems using basis sets and the concept of basis functions.

Basis Sets II: Types and Accuracy

Explores different types of basis sets, polarization functions, and accuracy challenges in computational chemistry.

Metal Hydride Complex Symmetry

Explores the symmetry analysis of a deuterated metal hydride complex and its molecular orbitals.

Hartree-Fock Method: Basis Sets and Quantum Chemistry

Explores the Hartree-Fock method, basis sets, Slater determinants, and quantum chemistry concepts like spin contamination and Hund's rule.

Quantum Chemical Electronic Structure Methods

Explores quantum chemical electronic structure methods, including basis sets and the Hartree-Fock method.

Chemical Bonding: Orbitals and Resonance

Covers the fundamentals of chemical bonding, focusing on orbitals and resonance in organic chemistry.

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 Chemistry: Molecular Orbital Theory

Covers the fundamentals of quantum chemistry, focusing on molecular orbital theory and conservation of orbital equivalence.

Atomic Orbitals: Structure and Interactions

Explores atomic orbitals, molecular interactions, and overlap integrals.

Plotting HF orbitals

Explains how to visualize molecular orbitals and the difference between spin-restricted and unrestricted calculations.

Organic Chemistry: Molecular Orbitals and Hybridization

Explores molecular orbitals, hybridization, sigma and pi bonds, and resonance in organic chemistry.

Covalent Bonding: Orbital Stability

Explores covalent bonding stability and orbital properties in molecules like H₂ and He.

Molecular Orbitals: Bonding and Hybridization

Explores the transition from atomic to molecular orbitals, covering quantum systems, approximations, valence electrons, and covalent bonds.

Atomic Structure: Electronic Configuration

Explores the electronic configuration of atoms, including orbitals, energy levels, and the periodic table of elements.

Ligand Field Theory: Crystal Field Splitting

Delves into ligand field theory, crystal field splitting, and molecular orbitals in transition metal complexes.

Quantum Chemistry Fundamentals

Covers the basics of quantum chemistry and the Hartree-Fock method.

Hydrogen Molecule: Electronic Structure

Delves into the electronic structure of the hydrogen molecule, including wavefunctions, bonding, energy levels, and molecular orbitals.