Students develop fundamental quantum ideas in chemistry and apply them to topics in chemical bonding and spectroscopy. Bonding concepts revolve around electrostatic models applied to ionic compounds and transition metal complexes. Covalent bonding is approached from the molecular orbital point of view, while students survey homo- and heteronuclear diatomics, and briefly consider larger molecules. Fundamental concepts in spectroscopy are introduced, and vibrational, electronic, nuclear magnetic resonance (NMR) and electron spin resonance (ESR) spectroscopy is discussed. Fundamental aspects of symmetry guide several of these treatments. Prerequisite: CHEM 1500 (minimum C- grade) and either CHEM 1510 or 1520 (minimum C- grade).
Students develop fundamental quantum ideas in chemistry and apply them to topics in chemical bonding and spectroscopy. Bonding concepts revolve around electrostatic models applied to ionic compounds and transition metal complexes. Covalent bonding is approached from the molecular orbital point of view, while students survey homo- and heteronuclear diatomics, and briefly consider larger molecules. Fundamental concepts in spectroscopy are introduced, and vibrational, electronic, nuclear magnetic resonance (NMR) and electron spin resonance (ESR) spectroscopy is discussed. Fundamental aspects of symmetry guide several of these treatments. Prerequisite: CHEM 1500 (minimum C- grade) and either CHEM 1510 or 1520 (minimum C- grade).
