A Computer-Based Dialogue for Deriving Energy Conservation for Motion in One-Dimension.

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Bibliographic Details
Title: A Computer-Based Dialogue for Deriving Energy Conservation for Motion in One-Dimension.
Authors: Bork, Alfred M., Sherman, Noah, California Univ., Irvine. Physics Computer Development Project.
Peer Reviewed: N
Page Count: 8
Publication Date: 1970
Sponsoring Agency: National Science Foundation, Washington, DC.
Descriptors: Computer Assisted Instruction, Educational Research, Feedback, Mathematics Instruction, Physics, Programed Instruction, Programed Instructional Materials, Science Instruction
Abstract: A student-computer dialog for teaching a mathematical proof proved effective when tested in two university physics courses. The objective was to make the beginning or intermediate physics student an active participant in the development of the proof, which concerned the conservation of mechanical energy for a mass moving in one dimension and subject to a force that depends only on position. A suitable computer flow chart was written, then the program was tested in two university settings and feedback was sought from students. The few problems encountered concerned computer terminology and student choice patterns. Thus the student-computer dialog seems useful in teaching mathematical derivations, the staple of many science courses. (RB)
Journal Code: RIEJUL1972
Entry Date: 1972
Accession Number: ED060631
Database: ERIC
Description
Abstract:A student-computer dialog for teaching a mathematical proof proved effective when tested in two university physics courses. The objective was to make the beginning or intermediate physics student an active participant in the development of the proof, which concerned the conservation of mechanical energy for a mass moving in one dimension and subject to a force that depends only on position. A suitable computer flow chart was written, then the program was tested in two university settings and feedback was sought from students. The few problems encountered concerned computer terminology and student choice patterns. Thus the student-computer dialog seems useful in teaching mathematical derivations, the staple of many science courses. (RB)