A hands-on, project-focused class that engages students through community-based approaches to advance the United Nations' Sustainable Development Goal 7, which seeks to ensure access to affordable, reliable, sustainable, and modern energy. Teams work on off-grid energy projects related to lighting, cooking, agricultural productivity, or other solutions with pre-selected community partners. Project work includes assessment of user needs, technology identification, product design, prototyping, and implementation strategies for ongoing projects.

Issues in international development, appropriate technology and project implementation addressed through lectures, case studies, guest speakers and laboratory exercises. Students form project teams to partner with community organizations in developing countries, and formulate plans for an optional IAP site visit. (Previous field sites include Ghana, Brazil, Honduras and India.) Recitation sections focus on specific project implementation, and include cultural, social, political, environmental and economic overviews of the target countries as well as an introduction to the local languages.

Issues in international development, appropriate technology and project implementation addressed through lectures, case studies, guest speakers and laboratory exercises. Students form project teams to partner with community organizations in developing countries, and formulate plans for an optional IAP site visit. (Previous field sites include Ghana, Brazil, Honduras and India.) Recitation sections focus on specific project implementation, and include cultural, social, political, environmental and economic overviews of the target countries as well as an introduction to the local languages.

Intuition-based introduction to electronics, electronic components and test equipment such as oscilloscopes, meters (voltage, resistance inductance, capacitance, etc.), and signal generators. Emphasizes individual instruction and development of skills, such as soldering, assembly, and troubleshooting. Students design, build, and keep a small electronics project to put their new knowledge into practice. Intended for students with little or no previous background in electronics.

Here, you’ll learn the application of electronic flash sources to measurement and photography. The first half of the course covers the fundamentals of photography and electronic flashes, including experiments on the application of electronic flash to photography, stroboscopy, motion analysis, and high-speed videography. Students write five extensive lab reports.