Design and Implementation of Integrated Science Core Courses

Back to Entries...

TitleDesign and Implementation of Integrated Science Core Courses
Faculty/College/UnitScience
StatusCompleted
Duration2 Year
Initiation04/01/1998
Completion03/31/1999
Funding Details
Year 1: Project YearYear 1
Year 1: Funding Year1998/1999
Year 1: Project TypeSmall TLEF
Year 1: Principal InvestigatorJülyet Benbasat
Year 1: Funded Amount30,935
Year 1: Team Members

Jülyet Benbasat, Associate Dean, Curriculum Initiatives, Faculty of Science
George Spiegelman, Chair, Integrated Sciences Program Implementation Committee, Faculty of Science

Year 1: Summary
Our objective is to design and implement three Integrated Science (IS) courses which will be at the core of a new degree stream in the Faculty of Science which will lead to a B. Sc. In Integrated Sciences. The Program will be launched in September 1998. We are, therefore, planning to implement three IS courses by next September (the first phase of the project) and another three by September 1999 (second phase) while we fine-tune the first set.
IS students will have the flexibility to build their own interdisciplinary programs by combining courses across the curriculum in cohesive and complementary ways. At the same time, we must help them acquire the tools to search for and recognize relationships in the knowledge and concepts covered throughout their course of study. IS courses will “teach by example”, each focusing on a special topic from many different perspectives. They will:
  • Present information at a rigorous level to a student population of diverse interests working together in groups and communicating across disciplines;
  • Be interdisciplinary to allow students to develop new perspectives and apply knowledge and scientific tools in new contexts (Klein, 1996);
  • Be taught through a combination of lectures, workshops, problem based learning and other interactive teaching styles that have been shown to promote deeper conceptual understanding (Hake, 1997), and to develop reflective and higher order thinking skills, open ended problem solving, and communication skills (Foyle, 1995); and
  • Incorporate current research topics to achieve an element of inquiry and an awareness of literature, experimental design, controls, precision, and relevance which can be applied to solve “problems” in any setting (Andre & Frost, 1997).
Year 2: Project YearYear 2
Year 2: Funding Year1999/2000
Year 2: Project TypeSmall TLEF
Year 2: Principal InvestigatorJohn Gosline
Year 2: Funded Amount49,750
Year 2: Team Members

John Gosline, Director, Integrated Sciences Program, Faculty of Science

Year 2: Summary

Our objective is to design and implement Integrated Science (ISCI) courses that will be at the core of the new Integrated Sciences Program in the Faculty of Science. This Program was launched in September 1998, and it gives ISCI students the flexibility to build their own programs within certain guidelines and enroll in nine credits of “Integration Courses” (ISCI) courses in their third and fourth years. Our first three ISCI courses, which are running in the 1998/1999 academic year to serve the 50 ISCI students currently enrolled, were developed under a TLEF grant awarded last year. The current proposal will support the development of three new ISCI courses for September 1999 and the fine tuning of the first three, in anticipation of roughly 100 new ISCI students next year.

Why Integration courses? In the Integrated Science Program, we ask students to set up their own degree programs by combining courses across Science in cohesive and complementary ways. We must also help them acquire the tools which will allow them to search for and recognize relationships between concepts covered in their different courses. The ISCI integration courses are designed to fulfill this function. They will:

  • present information, including current interdisciplinary research topics, at a level that will allow students with diverse interests and backgrounds to work together in groups and communicate across disciplines;
  • be interdisciplinary, to allow students to develop perspectives and apply knowledge, electronic media, and scientific tools in new contexts (Klein, 1996);
  • be taught through a combination of lectures, workshops, problem based learning and other interactive teaching styles that have been shown to develop reflective and high order thinking skills, open ended problem solving, and communication skills (Foyle, 1995).