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Fiber reinforced composites. Stress, strain, and strength of composite laminates and honeycomb structures. Failure modes and failure criteria. Environmental effects. Manufacturing processes. Design of composite structures. Individual design project required of each student, resulting in a usable computer software. Prerequisite: ME 80 and AA 156 or equivalent.

This course introduces students to emerging technological solutions to address the pressing energy demands of the world. It is motivated by discussions of the scale of global energy usage and requirements for possible solutions; however, the primary focus will be on the fundamental physics and chemistry of solar cells, fuel cells, and batteries from a materials science perspective. Students will learn about operating principles and performance, economic, and ethical considerations from the ideal device to the installed system. The promise of materials research for providing next generation solutions will be highlighted by guest speakers developing innovative energy technologies. Undergraduates register in 156 for 4 units; graduates register in 256 for 3 units. Prerequisites: Undergraduate coursework in thermodynamics (e.g., MATSCI 144, ME 30) and electromagnetism (e.g., PHYSICS 23/43).