A student project for AHSE1500: Foundations of Business and Entrepreneurship (taught in Spring 2006) featuring an Olin College themed tradable card game. It consists of cards of students, professors, locations, and events.
This record contains the Final Report for the project and scanned images of all the cards in the game.
Helical ribbons with pitch angles of either 11° or 54° self-assemble in a wide variety of quaternary surfactant-phospholipid/fatty acid-sterol-water systems. By elastically deforming these helices, we examined their response to uniaxial forces. Under sufficient tension, a low pitch helix reversibly separates into a straight domain with a pitch angle of 90° and a helical domain with a pitch angle of 16.5°. Using a newly developed continuum elastic free energy model, we have shown that this phenomenon can be understood as a first order mechanical phase transition.
The Olin Raytheon/WHOI SCOPE team is assisting WHOI in the buoy design effort by writing software tools for managing the energy budget of a deployed buoy. Woods Hole Oceanographic Institute (WHOI) scientists are constructing buoys for the Ocean Observatories Initiative (OOI), an NSF funded program that will construct a network of buoys for monitoring physical, chemical, geological, and biological variables in the ocean and on the sea floor. The buoys in development for the OOI by WHOI will be expected to operate for 25 years with annual maintenance. Power for an array of reprogrammable sensors will be dependent on a combination of solar and wind power generation and an on-board fuel cell replenished during the annual maintenance.