Chemist Matthew Shair at Harvard University presents his lab's research in the "syntheses of naturally occurring complex molecules that challenge the...
This website addresses the research of Bruce Donald's lab at Duke University in the use of Physical Geometric Algorithms (PGA) to better understand...
Visitors can discover Professor Mark Bradley's and company's use of combinatorial chemistry to synthesize many compounds efficiently. The website features...
On this site, New York University Department of Chemistry presents its various research interests including Chemical Biology, Biomolecular and Biophysical...
This website describes the courses, student projects, and grants of the interdisciplinary Chemistry-Biology Interface (CBI) Training Program at the University...
The University of Delaware features its multidisciplinary graduate program where students perform research in biochemistry, biochemical engineering, bioorganic...
AMSER is a portal of educational resources and services built specifically for use by those in Community and Technical Colleges but free for anyone to use.
AMSER is funded by the National Science Foundation as part of the National Science Digital Library, and is being created by a team of project partners led by Internet Scout.
A rough ball will travel further than smooth one. Roughness, whether from stitching or abrasion, creates a layer of turbulent air that greatly reduces drag. A smooth golf ball would fly only about half as far as the normal dimpled variety.
Manage your resources
Save, organize, and share resources that you find.
Subscribe to bulletins
Automatically be notified about new resources that match your interests.
It's easy, fast, and FREE!