ME 498

Spring 2021 Part of Term 1

Part of Term 1
Jan 25-May 5

Special Topics

SHOW FINAL EXAM SCHEDULE

Credit: 0 TO 4 hours.

Subject offerings of new and developing areas of knowledge in mechanical engineering intended to augment the existing curriculum. See Class Schedule or departmental course information for topics and prerequisites.

0 to 4 undergraduate hours. 0 to 4 graduate hours. May be repeated in the same or separate terms if topics vary to a maximum of 9 hours.

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ME 498 class schedule data for spring 2021
	CRN	Type	Section	Time	Day	Location	Instructor	Section Details
	55827	Online Lecture	TL3	10:00AM -11:30AM	MW	n.a.	Lee, T	Part of Term: 1 Date Range: 01/25/21-05/05/21 Credit: 3 hours Section Title: Laser Diag for Propulsion Section Info: Prerequisites: Fundamental Math and Physics. Laser Diagnostics for Propulsion Research will provide students with a practical understanding of advanced laser and optical diagnostics used to study complex energy conversion phenomena in high speed propulsion systems. The students will be exposed to basic spectroscopy principles as well as developments in the latest optical measurement techniques that are used to study (1) combustion phenomena in supersonic flows, (2) chemical kinetics of fuel oxidation, and (3) gas turbine combustors. Special focus will be placed on application of both single point and 2-D imaging diagnostics for study of hypersonic aircraft engines and development of next-generation alternative fuels. Students will be expected to design a novel laser diagnostics strategy as the final project for the course
	60698	Online Lecture	TL4	10:00AM -11:30AM	MW	n.a.	Lee, T	Part of Term: 1 Date Range: 01/25/21-05/05/21 Credit: 4 hours Section Title: Laser Diag for Propulsion Section Info: For Graduate students who select this 4 credit hours, there will be an extra component to this course equivalent to 1 hour per week of work Prerequisites: Fundamental Math and Physics. Laser Diagnostics for Propulsion Research will provide students with a practical understanding of advanced laser and optical diagnostics used to study complex energy conversion phenomena in high speed propulsion systems. The students will be exposed to basic spectroscopy principles as well as developments in the latest optical measurement techniques that are used to study (1) combustion phenomena in supersonic flows, (2) chemical kinetics of fuel oxidation, and (3) gas turbine combustors. Special focus will be placed on application of both single point and 2-D imaging diagnostics for study of hypersonic aircraft engines and development of next-generation alternative fuels. Students will be expected to design a novel laser diagnostics strategy as the final project for the course Restriction(s): Restricted to Graduate - Urbana-Champaign.