Professor Mu-Hyun Baik
Professor Baik's research group, utilizing large-scale computer simulations, is trying to better understand (1) how to split water more efficiently to generate hydrogen that could be used as fuel, which would provide a permanent solution to the energy crisis (2) how to design better anticancer drugs based on the "blockbuster"-drug cisplatin, and (3) how beta-amyloid/copper complexes that are found in the brains of Alzheimer's disease patients may promote cell death - the ultimate goal is to understand this disease well enough to find rational strategies towards a therapy, if not a cure.
CALM is a novel Web based tool for enhancing problem-solving skills of students through directed inquiry. Based upon a Socratic pedagogy it presents a student with individualized, algorithmically generated questions on a given topic. Algorithmic generation allows the student to test their comprehension by requesting and solving several different questions on the same topic. Each question and its solution are generated when the question is requested. Thus, the program provides immediate feedback to the student regarding the correctness of the answer provided. Students are not penalized for incorrect answers but are encouraged to reconsider the question and re-answer it.
CALM is distinguished from existing approaches of computer based instruction by its utilization of a directed learning approach. Inherent with its Socratic pedagogy, CALM can present a student who incorrectly answers a question with a leading question. A student is thus not simply shown an answer, but is constantly challenged to seek the correct answer. The program also provides instantaneous feedback to faculty/instructors via the Web about the comprehension of a particular topic either by a particular student or group of students.
CALM incorporates several types of questions: