Quantum Chemistry explores the application of quantum mechanics to chemical systems. This course provides a deep understanding of the electronic structure of atoms and molecules, chemical bonding, and molecular spectroscopy. Topics include wave functions, Schrödinger’s equation, quantum states, and the behavior of electrons in atoms and molecules. Students will learn how quantum theory explains periodic trends, reactivity, and molecular geometry. Emphasis is placed on mathematical concepts, theoretical models, and computational methods. Designed for upper-level undergraduates or early graduate students in chemistry or physics, the course lays the groundwork for research in physical chemistry, materials science, and computational modeling.

Quantum Chemistry explores the application of quantum mechanics to chemical systems. This course provides a deep understanding of the electronic structure of atoms and molecules, chemical bonding, and molecular spectroscopy. Topics include wave functions, Schrödinger’s equation, quantum states, and the behavior of electrons in atoms and molecules. Students will learn how quantum theory explains periodic trends, reactivity, and molecular geometry. Emphasis is placed on mathematical concepts, theoretical models, and computational methods. Designed for upper-level undergraduates or early graduate students in chemistry or physics, the course lays the groundwork for research in physical chemistry, materials science, and computational modeling.

Quantum Chemistry explores the application of quantum mechanics to chemical systems. This course provides a deep understanding of the electronic structure of atoms and molecules, chemical bonding, and molecular spectroscopy. Topics include wave functions, Schrödinger’s equation, quantum states, and the behavior of electrons in atoms and molecules. Students will learn how quantum theory explains periodic trends, reactivity, and molecular geometry. Emphasis is placed on mathematical concepts, theoretical models, and computational methods. Designed for upper-level undergraduates or early graduate students in chemistry or physics, the course lays the groundwork for research in physical chemistry, materials science, and computational modeling.