An overview of the atmospheric sciences primarily for non-science majors. Topics include weather forecasting, the greenhouse effect and global warming, ozone depletion, El Niño, air pollution, atmospheric optical effects, global climate, and the impacts of weather on human health. Three lectures per week. No science/math background is required.

Studies the physical principles governing the flow of water on and beneath the earth's surface, including fundamental concepts of fluid dynamics applied to the description of open channel hydraulics, ground water hydraulics, and dynamics of soil moisture. Introduces elements of surface water and ground water hydrology and explores humanity's influence on its hydrological environment. Prerequisite: One semester of calculus.

Introduces the physical laws governing atmospheric behavior and examines atmospheric variables and their role in the fluid environment of the earth. Prerequisite: MATH 1190 or MATH 1210 or MATH 1220 or MATH 1310 or MATH 1320 or MATH 2310 or APMA 1090 or APMA 1110 or APMA 2120.

Studies the composition, structure, and internal processes of earth; the classification, origin, and distribution of earth materials; earth's interior; and the interpretation of geological data for the solution of problems of the natural environment. Recommended: At least one semester of college chemistry with lab such as CHEM 1410, 1420.

Studies energy flow, nutrient cycling and allocation in natural ecosystems, organization of species at the population and community levels, and interaction between people and the biosphere. Prerequisite: One semester of calculus; recommended; at least one semester of college-level chemistry and biology with labs such as CHEM 1410, 1420, and BIOL 2020.

Studies ecological science relevant to sustaining populations, species, ecosystems, and the global biosphere. Includes discussion of genetic inbreeding, critical population size, community structure and organization, maintenance of critical ecosystem function, and global biogeochemistry. Case studies from around the world demonstrate links between human-driven environmental change and the health of the biosphere, at all levels, from the organism to the planet.

Studies the origin and evolution of the solar system, emphasizing the geology of the planets and satellites of the inner solar system and the satellites of the gaseous planets. Compares and contrasts the Earth with Venus and Mars. Prerequisite: Introductory course in geosciences or astronomy.

Introduces the principles and basic facts of the natural environment. Topics include earth materials, land forms, weather and climate, vegetation and soils, and the processes of environmental change and their implications to economic and human systems.

This seminar treats topics in the physical processes that shape landscapes. Topics will rotate with each semester, and will initially focus on the Appalachian Mountains and Chesapeake Bay as natural laboratories for studying interrelationships between mountain building, erosion, climate, and sea-level. Lectures & discussions of scientific literature will introduce geologic context, physics and chemistry relevant to particular geomorphic processes.

Study of energy, water, and carbon exchange between the atmosphere and the land surface. Prerequisite: One year of college physics and calculus, one hydrology or atmospheric science course, or permission of instruct.