Basic principles of structure and reactivity. Microscopic nature of atoms and molecules; the macroscopic properties of chemical systems. Topics include stoichiometry, thermochemistry, atomic structure, molecular structure, properties of gases. (Gen.Ed. PS)

Basic principles of structure and reactivity. Microscopic nature of atoms and molecules; the macroscopic properties of chemical systems. Topics include stoichiometry, thermochemistry, atomic structure, molecular structure, properties of gases. (Gen.Ed. PS)

Basic principles of structure and reactivity. Microscopic nature of atoms and molecules; the macroscopic properties of chemical systems. Topics include stoichiometry, thermochemistry, atomic structure, molecular structure, properties of gases. (Gen.Ed. PS)

Basic principles of structure and reactivity. Microscopic nature of atoms and molecules; the macroscopic properties of chemical systems. Topics include stoichiometry, thermochemistry, atomic structure, molecular structure, properties of gases. (Gen.Ed. PS)

Basic principles of structure and reactivity. Microscopic nature of atoms and molecules; the macroscopic properties of chemical systems. Topics include stoichiometry, thermochemistry, atomic structure, molecular structure, properties of gases. (Gen.Ed. PS)

In this course, principles and skills of physical sciences are developed and used to investigate questions inspired by four crafts: Blacksmithing, Ceramics, Brewing, and Glassblowing. Topics generally include measurement of and relationship between physical properties; atomic and molecular structure and properties; experimental design and data analysis; light, energy, and spectroscopy; geometric optics; cellular respiration; and others as needed to understand the materials, tools, methods, and processes used in these crafts.

Not available at this time

Not available at this time

Technologies are changing the ways that mobility is provided in cities and regions. This graduate course will address theory and empirical evidence related to public transit and multimodal mobility in cities. Topics will include modeling and design of transit networks, modeling and operation of on-demand services (including microtransit, ridesourcing, and vehicle sharing), and city-scale models of traffic in networks with cars and transit.