Billede af Ricardo Avelar Sotomaior Karam

Ricardo Avelar Sotomaior Karam

 https://orcid.org/0000-0003-2567-8179

  • Universitetsparken 5, 2100 København Ø

20062019

Publikationer pr. år

Personlig profil

Primære forskningsområder

Due to my academic/professional background, my main research interests can be resumed as follows:

The educational implications of the relationship between Physics and Mathematics

I have recently guest edited a thematic issue of the journal Science & Education on this topic (Volume 24, Issues 5-6). Click here to view it.

This research involves considering the following three dimensions:

1) Historical and Epistemological Studies

Physics and Mathematics have been deeply interrelated since the very beginning of scientific knowledge and this mutual influence has played an essential role on both their developments. Historical case studies show us not only physics problems motivating the creation of mathematical concepts but also “pure” mathematics being used to derive conclusions about the “real” world.

Some references:

Bochner, S. (1981). The role of mathematics in the rise of science. Princeton, New Jersey: Princeton University Press.

Boniolo, G., Budinich, P., & Trobok, M. (Eds.) (2005). The role of mathematics in physical sciences. Dordrecht: Springer.

Gingras, Y. (2001). What did mathematics do to physics? History of Science, 39, 383–416. 

2) Learning/Cognitive Perspective

The main difficulties students face when using mathematics to solve physics problems and/or transferring their knowledge from a mathematical to a physical context need to be investigated. Moreover, it is important to understand how the ability of using mathematics as a reasoning instrument in physics – instead of using it as a mere calculation tool – is developed.

Some references:

Bing, T. J., & Redish, E. F. (2009). Analyzing problem solving using math in physics: Epistemological framing via warrants. Phys. Rev. ST Phys. Educ. Res. 5, 020108.

Hudson, H. T., & McIntire, W. R. (1977). Correlation between mathematical skills and success in physics. Am. J. Phys., 45(5), 470–471

Sherin, B. L. (2001). How students understand physics equations. Cognition and Instruction, 19(4), 479-541.

3) Teaching/Didactic Perspective

Teaching activities and materials have to be carefully designed in order to encourage students to structure their thought mathematically in physical contexts. Due to the crucial responsability of the teacher for the success of this challenge, such didactical aspects have to be sistematically approached in teacher training courses. Aditionally, criteria for evaluating the quality of instruction, regarding the focus on several aspects of the relationship of physics and mathematics, should be established.

Some references:

Bagno, E., Berger, H., & Eylon, B. S. (2008). Meeting the challenge of students’ understanding of formulae in high-school physics: A learning tool. Physics Education, 43(1), 75-82.

Dunn, J. W., & Barnabel, J. (2000). One model for an integrated math/physics course focusing on electricity and magnetism and related calculus topics. Am. J. Phys., 68(8), 749–757.

Tzanakis, C., & Thomaidis, Y. (2000). Integrating the close historical development of Mathematics and Physics in Mathematics education: some methodological and epistemological remarks. For the Learning of Mathematics, 20 (1), 44-55.

CV

Education 

2008-2012: Ph.D. in Science and Mathematics Education University of São Paulo/TU Dresden Mathematical Reasoning in Physics Instruction

 
2004-2005: M.Sc. in Science Education Federal University of Santa Catarina
Special Relativity in High School Level
 
2000-2002: B.A. in Mathematics and Physics Education Catholic University of Paraná
 
1997-2001: B.Sc. in Civil Engineering Federal University of Paraná 

Teaching experience

2013-2014: Visiting scholar at the Physics Department of the University of Helsinki and Dresden. Course given: Roles of Mathematics in Physics

 
2007-2009: Associate Professor of Mathematics Federal Institute of Science and Technology. Courses given: Calculus, Statistics and Linear Algebra  
 
2006-2007: Physics Lecturer State University of Santa Catarina. Courses given: General Physics and Teaching Practice
 
2006-2007: In-service teacher training courses – Lecturer IBPEX. Courses given: History of Mathematics and Problem Solving
 
2004-2006: Physics Lecturer Federal University of Santa Catarina. Courses given: Vector Mechanics and General Physics
 
2004-2006: Volunteer work – Lecturer “Alfabetização Solidária” Organization. Courses given: Didactics of Mathematics
 
2000-2004: Physics/Mathematics High School Teacher Colégio Dom Bosco. Classes given: Mathematics and Physics at upper secondary level
  
Related experience
 
2015-2017: Director of the IHPST Council
 
2015-present: Member of the Editorial Board - Science & Education   
 
2012-2015: Assistant Editor - Science & Education
  
2009: Consultant for Educational Issues - Brazilian Ministry of Education 
 
2003-2006: Author of Physics school books and educational software - Editora Dom Bosco 
 
Grants and scholarships 
 
2012-2014: Humboldt Postdoctoral Fellowship University of Hamburg, Germany 
 
2011-2012: FAPESP Graduate Fellowship University of São Paulo, Brazil 
 
April 2011: Research Stay University of Maryland, USA - Prof. Edward Redish
  
2010-2011: DAAD-CAPES-CNPq Graduate Fellowship Technical University of Dresden, Germany - Prof. Gesche Pospiech
 
October 2010: ESERA Travel Award 2010 NCE-MSTL, University of Limerick, Ireland - Prof. John O’Donoghue
 
Language skills
 
Portuguese: Mother language  
English: Excellent speaking, reading and writing - TOEFL 570 in 1994 
German: Excellent speaking, reading and writing - DSH 2 in 2010  
Spanish: Good speaking/reading and regular writing 
French: Regular speaking/writing and good reading

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