Daniel Serrano Institute for Research in Electronics and Applied Physics Bldg.Tags: Essay Structure TemplatePrime Essay WritingConfucius Taoism EssayEssay About Good EducationEssays About Your Goals For The FutureTok Essay CambridgeWhat Is Critical Thinking DefinitionHow To Solve Sinus ProblemsEssay Of Man
Because of necessary organizational lead time, international REU sites may require earlier acceptance dates.
For further information about the TREND Program, please contact Program Coordinator Daniel Serrano at 301-405-6565 or [email protected]
We are the state of Maryland’s flagship institution and a member of the Association of American Universities (AAU), the Committee on Institutional Cooperation (CIC) and the Big 10 Conference.
We have an unbeatable location just outside Washington, D.
You won’t only find a new home at UMD, you’ll also be part of a close-knit community. Our admission process has one mission: to identify applicants, who as individuals and as a group, will enrich and benefit from the campus learning environment and the entire student body.
You’ll find campus life in residence halls, on the intramural fields, in the pool or on the rock-climbing wall. There are 26 factors that are considered during our holistic admissions review process for every applicant.
TREND students receive up to ,400 for the 10-week period. The TREND projects that will be offered during the summer 2019 session are listed below.
This includes a ,800 stipend for their work in the summer, as well as 0 for incidental daily expenses. Project names are linked to their respective descriptions.
Students from a variety of universities and backgrounds typically work in teams of two or three for 10 weeks during the summer and are supervised jointly by faculty members and graduate students. Research projects will be theoretical, experimental, or both.
Examples of research topics are: experimental studies of nonlinear systems - turbulence and flows; theoretical and computational studies of magnetic reconnection and the dynamics of energetic particles; nonlinear dynamics in charged particle beam systems; synchronization patterns in optoelectronic networks; the dynamics of soft matter, granular matter, and biomaterials; theoretical and computational studies of emergence in nonlinear dynamics; optical nonlinearity in topological systems; motion guidance for underwater vehicles using autonomous control and oceanographic models with forecast uncertainty; and dynamics of living cells.