Keyword Suggestions

Results
 
 
Account Login
 
 
 
 
 

Library Navigation

 
 

Browse Meetings

 
 
 
AAA6.02 - Multidisciplinary Undergraduate Research Team via Independent Study Courses 
Date/Time:
December 2, 2014   2:00pm - 2:15pm
 
Speaker:
 
Taxonomy
 
Share:
 

Undergraduate students from Engineering, Physics & Chemistry come together to form a multidisciplinary team as part of an undergraduate research opportunity through a sequence of independent study courses within the Department of Engineering at James Madison University. The undergraduate research team typically ranges from freshman to seniors totaling approximately six to eight students per academic year. One of the primary objectives is to provide a high-level research experience for undergraduates in a nurturing environment within the academic year. Peer-mentoring is integral piece to the team dynamics. Within our framework, the juniors and seniors serve as peer-mentors to the freshman and sophomores. The research backdrop deals with synthesizing polymer nanocomposites comprised of rare-earth doped ligand surface treated nanocrystals within polymers.

The focus of the talk will be the course sequence that facilitates the research opportunity that could be applied to obtaining a minor in Materials Science. The sequence of courses allows for problem-based learning, inquiry-based learning, and collaborative efforts with outside entities. The course objectives are geared towards developing critical & creative thinking, technical writing and oral communication skills through the development of planned action & experiments with data analysis as well as submitting findings to present at regional and national conferences.
 


 
 
Average Rating: (No Ratings)
  Was great, surpassed expectations, and I would recommend this
  Was good, met expectations, and I would recommend this
  Was okay, met most expectations
  Was okay but did not meet expectations
  Was bad and I would not recommend this
 



Submit
 
Performance Enhancement of Pentacene Based Organic Field-Effect Transistor through DNA Interlayer
Semiconducting Polymer-Dipeptide Nanostructures by Ultrasonically-Assisted Self-Assembling
DNA as a Molecular Wire: Distance and Sequence Dependence
Structure-Property Relationship in Biologically-Derived Eumelanin Cathodes Electrochemical Energy Storage
Artificial Physical and Chemical Awareness (proprioception) from Polymeric Motors