Analyzing the Interface Between Mathematics and Engineering in Basic Engineering Courses-Reference-Cited by-同舟云学术

Analyzing the Interface Between Mathematics and Engineering in Basic Engineering Courses

Published:2022 Issue: Volume: Page:669-692
ISSN:1869-4918
Container-title:Practice-Oriented Research in Tertiary Mathematics Education
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Author:

Kortemeyer Jörg,Biehler Rolf

Publisher

Springer International Publishing

Link

https://link.springer.com/content/pdf/10.1007/978-3-031-14175-1_32

Reference19 articles.

1. Alpers, B. (2017). Differences between the usage of mathematical concepts in engineering statics and engineering mathematics education. In R. Göller, R. Biehler, R. Hochmuth, & H.-G. Rück (Eds.), Didactics of mathematics in higher education as a scientific discipline – Conference proceedings (pp. 138–142). Universitätsbibliothek Kassel. https://kobra.unikassel.de/bitstream/handle/123456789/2016041950121/khdm_report_17_05.pdf

2. Bing, T. J. (2008). An epistemic framing analysis of upper-level physics students’ use of mathematics. Ph.D. thesis, University of Maryland. Retrieved from: http://drum.lib.umd.edu/bitstream/1903/8528/1/umi-umd-5594.pdf

3. Blum, W., & Leiss, D. (2007). How do students and teachers deal with modeling problems? In C. Haines, P. Galbraith, W. Blum, & S. Khan (Eds.), Mathematical modeling: Education, engineering, and economics (pp. 222–231). Horwood.

4. Bruckner, J. B., Bruckner, A. M., & Thomson, B. S. (2001). Elementary real analysis. Prentice-Hall.

5. Castela, C. (2017). When praxeologies move from an institution to another: An epistemological approach to boundary-crossing. In R. Göller, R. Biehler, R. Hochmuth, & H.-G. Rück (Eds.), Didactics of mathematics in higher education as a scientific discipline – Conference proceedings (pp. 420–427). Universitätsbibliothek Kassel. https://kobra.unikassel.de/bitstream/handle/123456789/2016041950121/khdm_report_17_05.pdf