STEM Learning Based on Aircraft Design: An Interdisciplinary Strategy Developed to Science Clubs Colombia

Pedro David  Bravo-Mosquera; Nelson David  Cisneros-Insuasti; Fabiola  Mosquera-Rivadeneira; Bryann  Avendaño-Uribe

doi:10.18667/cienciaypoderaereo.629

Authors

Pedro David Bravo-Mosquera Universidade de São Paulo Escola de Engenharia de São Carlos: Sao Carlos, SP, BR https://orcid.org/0000-0001-5666-9465
Nelson David Cisneros-Insuasti Funbotic S.A
Fabiola Mosquera-Rivadeneira Universidad Santo Tomás
Bryann Avendaño-Uribe SCIENTELab- Transformando con Ciencia

DOI:

https://doi.org/10.18667/cienciaypoderaereo.629

Keywords:

STEM Learning, Aircraft Design, Bloom’s Taxonomy, Hands-on Learning, Scientific Method, Science Clubs Colombia

Abstract

This article describes a STEM learning strategy based on aircraft design in order to promote the development of aeronautical science in Colombia. This teaching strategy was developed by specialized instructors from the Science Clubs Colombia program, seeking to stimulate in young Colombian students their passion for science, technology, and innovation, and in the process, create an international network of academic collaborations. Bloom’s taxonomy was used to classify and select both the educational objectives, as well as the teaching plan of the science club. STEM activities that encourage students to perform hands-on learning experiences were the basis of this framework. Essentially, interdisciplinary activities involving aeronautics, electronics, computational simulations, and technical drawing; characterized this science club. As a result, the students were able to design, manufacture and test their own hand-launched air-model, applying all steps of the scientific method: the conception of ideas, design, execution of experiments, and communication of results. After the first flight tests of the air-models, the students disclosed an ability to apply their mathematics knowledge in conjunction with their science learning on the forces of flight, in order to improve their launching technique. Therefore, both the time and range of the air-models were enhanced. Finally, both students and instructors benefited throughout the learning interaction, since it was the first time that a rural community is the scenario of an aeronautical engineering training process. It is expected that the dissemination of this material will contribute to the Colombian aeronautical community, giving outlooks for new research proposals and cooperation frameworks between government entities and universities.

Downloads

Download data is not yet available.

Author Biographies

Pedro David Bravo-Mosquera , Universidade de São Paulo Escola de Engenharia de São Carlos: Sao Carlos, SP, BR

PhD candidate, Aircraft designer, experience in the area of CFD, experimental aerodynamics, propulsion and optimization in engineering.

CvLAC: https://scienti.colciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001735577
Nelson David Cisneros-Insuasti, Funbotic S.A

Electronic Engineer – Universidad de Nariño. Experience in electronic engineering, robots’ competition and children education.

CvLAC: https://scienti.colciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001685723
Fabiola Mosquera-Rivadeneira, Universidad Santo Tomás

Experience in special and children education.

CvLAC: https://scienti.colciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001672495
Bryann Avendaño-Uribe , SCIENTELab- Transformando con Ciencia

Biology and Ecology Professional - Pontificia Universidad Javeriana. Experience in research, education and consultancy for the rural development. Academic training includes: data modelling, decision-making and scenario planning.

CvLAC: https://scienti.colciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001473318

References

Abdalla, A. M. & Catalano, F. M. (2013). The Influence of Demoiselle Aircraft on Light and General Aviation Design. Journal of Mechanics Engineering and Automation, 3(4), 238- 246. Available from: http://www.gutolacaz.com.br/2014/ setembro/grandes/s=d%20 N%C2%BA%2020/Artigo%20 Santos%20Dumont.pdf

Aeronaves no Tripuladas. (2019). UAV Quimbaya - CIAC S.A. Available from https://www.ciac.gov.co/productos-y-servicios/aeronaves-no-tripuladas/ [Accessed 1 February 2019]

Aeronaves tripuladas. (2019). CALIMA T-90 and Planeador Urubú S-17 - CIAC S.A. Avai- lable from https://www.ciac. gov.co/productos-y-servi- cios/aeronaves-tripuladas/ [Accessed 13 February 2019]

Agrico de Paula, A. (2013). A Case Study in Aeronautical Engi- neering Education. In 4th CEAS Air & Space Conference.

Agrico de Paula, A. (2015a). A interdisciplinaridade em cursos de Engenharia: um relato dessa experiência numa disciplina de laboratório de física. In X Encontro Nacional de Pesquisa em Educação em Ciências -X ENPEC.

Agrico de Paula, A., Morales, M., Carvalho, F., Germano, J., & Passador, F. (2015b). A

Agrico de Paula, A., & Gil Annes da Silva, R. (2016). Abordagem pedagógica baseada em pro- blemas e projetos na disciplina de projeto aerodinâmico da pós-graduação do instituto tec- nológico de aeronáutica (ITA). In XLIV Congresso Brasileiro de Educação Em Engenharia.

Alba, M., & Orrego, C. (2013). Aprender haciendo en la vir- tualidad. Ciencia y Poder Aéreo, 8(1), 108-115. Available from: https://www.publicacionesfac. com/index.php/cienciaypo- deraereo/article/view/14

https://doi.org/10.18667/cienciaypoderaereo.14

Anderson, J. D. (2000). Introduc- tion to Flight (Mcgraw-Hill Series in Aeronautical and Aerospace Engineering).

Avendaño-Uribe, B.E. (2018). A child, a scientist, a gown, and a test tube can change the world. Pesquisa Maga- zin: journal of scientific and technology divulgation. Pon- tificia Universidad Javeriana. October, Bogotá-Colombia. Available from: https://www. javeriana.edu.co/pesquisa/ un-nino-un-cientifico-una- bata-y-un-tubo-de-ensayo- pueden-cambiar-al-mundo/ [Accessed 16 February 2019].

Bernardes, R. (2000). Embraer: elos entre Estado e mer- cado. Editora Hucitec.

Betancourth, N. J. P., Villama- rin, J. E. P., Rios, J. J. V., Bravo-Mosquera, P. D., & Cerón-Muñoz, H. D. (2016). Design and Manufacture of a Solar-Powered Unmanned Aerial Vehicle for Civilian Surveillance Missions. Journal of Aerospace Technology and Management, 8 (4), 385- 396. Available from: http:// www.jatm.com.br/ojs/index. php/jatm/article/view/678

https://doi.org/10.5028/jatm.v8i4.678

Bravo-Mosquera, P. D., Bote- ro-Bolivar, L., Acevedo-Gi- raldo, D., & Cerón-Muñoz, H. D. (2017). Aerodynamic design analysis of a UAV for superfi- cial research of volcanic envi- ronments. Aerospace Science and Technology, 70, 600-614. Available from:https://www. sciencedirect.com/science/ article/pii/S1270963817302870

https://doi.org/10.1016/j.ast.2017.09.005

Bybee, R. W. (2010a). Advancing STEM education: A 2020 vision. Technology and Engineering Teacher, 70 (1), 30.

Bybee, R. W. (2010b). What is STEM education? Science, Vol. 329, Issue 5995, pp. 996 DOI: 10.1126/science.1194998

https://doi.org/10.1126/science.1194998

Catalano, F. M. (2018). Brazilian aviation history: the univer- sity of São Paulo case. In 31st Congress of the International Council of the Aeronautical Sciences (p. 0601). Availa- ble from: http://icas.org/ ICAS_ARCHIVE/ICAS2018/data/ preview/ICAS2018_0601.htm

Catalano, F. M., Abdalla, A. M., & Delicato Filho, F. L. (2012). What is Missing for Traditional Design-Centric Engineering Education to Better Prepare Newly Graduated Engineers for the Global Era? Interna- tional Journal of Engineering Education, 28(4), 852-858. Available from: https://www. ijee.ie/contents/c280412.html

Catalano, F. M. & Carmo, M. (2013). The scientific and technological projects deve- loped between University of São Paulo and Embraer and its impact on enginee- ring education. Internatio- nal Journal of Engineering Education, 29, 1322-1330.

Christensen, R., Knezek, G., & Tyler-Wood, T. (2015). Align- ment of hands-on STEM enga- gement activities with positive STEM dispositions in secon- dary school students. Journal of Science Education and Technology, 24(6), 898-909.

https://doi.org/10.1007/s10956-015-9572-6

Cohen, M. F. (2013). An introduc- tion to logic and scientific method. Read Books Ltd.

Conley, D. T. (1997). Roadmap to restructuring: Charting the course of change in American education. Eugene, OR: ERIC Clearinghouse on Educational Management, College of Edu- cation, University of Oregon.

Corradine, J. E. (1980). História del desarrollo empresarial en el sector de la aviación comercial en Colombia. [Tesis doctoral] Uniandes.

Crouch, T. D. (2004). Wings: a history of aviation from kites to the space age. WW Norton & Company.

Deperrois, A. (2010). XFLR5 Analy- sis of foils and wings operating at low reynolds numbers, 2009. Available from: http://xflr5. sourceforge.net/xflr5.htm [Accessed 13 February 2019].

Dinero. (2000). Dos histórias de alas. Available from https:// www.dinero.com/edicion- impresa/management/arti- culo/dos-historias-alas/10009 [Accessed 15 January 2019]

Drew, D. E. (2011). STEM the tide: Reforming science, technology, engineering, and math educa- tion in America. JHU Press.

English, L. D., & King, D. T. (2015). STEM learning through engi- neering design: fourth- grade students' investigations in aerospace. International Jour- nal of STEM Education, 2 (1), 14.

https://doi.org/10.1186/s40594-015-0027-7

Escobar, J. (2011). Design and Development of First Colom- bian Short-Range Unmanned Aerial Vehicle for Intelligence, Surveillance, and Recon- naissance. AUVSI, 2019.

Ferraz, A. P. C. M., & Belhot, R. V. (2010). Taxonomia de Bloom: revisão teórica e apresentação das adequações do instrumento para definição de objetivos instrucionais. Gest. Prod., São Carlos, 17(2), 421-431.

https://doi.org/10.1590/S0104-530X2010000200015

Forjaz, M. C. S. (2005). The ori- gins of Embraer. Tempo Social, 17(1), 281-298.

https://doi.org/10.1590/S0103-20702005000100012

Glennan, T. K., & Melmed, A. (1996). Fostering the use of educational technology: Elements of a national strategy. National Book Network, 4720 Boston Way, Lanham, MD 20706.

Gutiérrez, L. B., Hazbón, O., & Appel, B. (2012). UAS design requirements for operation in Colombian mountain environments. In 28th Congress of the International Council of the Aeronautical Sciences (ICAS2012-1.8.ST). Available from: http://www.icas.org/ ICAS_ARCHIVE/ICAS2012/ ABSTRACTS/595.HTM

Guzmán, M. M. (2006). Educación, ciencia y tecnología la opor- tunidad del desarrollo seguro logístico de la Fuerza Aérea. Ciencia y Poder Aéreo, 1(1), 13-14. Available from: https:// www.publicacionesfac.com/ index.php/cienciaypode- raereo/article/view/90

https://doi.org/10.18667/cienciaypoderaereo.90

Ibrahim, K. & Mohnot, A. (2006). Selecting principal parame-ters of baseline design con- figuration for light general aviation aircraft. In 24th AIAA Applied Aerodynamics Con- ference (p. 3316). Available from: https://arc.aiaa.org/ doi/10.2514/6.2006-3316

https://doi.org/10.2514/6.2006-3316

León, K. (2011). Historia de la avia- ción en Colombia: 1911-1950. Credencial Historia, 264.

Mcb. (2016). Graduate student initiatives: Science Club Latin America. Harvard Univer- sity. Available from https:// www.mcb.harvard.edu/ education/graduate-stu- dent-initiatives-scien- ce-club-latin-america/ [Accessed 6 February 2019]

Multidisciplinary and Practical View in Aeronautical Enginee- ring Education. In 5th CEAS Air & Space Conference (p. 163).

Passador, F., Gomes, J., A. de Paula, A., Carvalho, F., Morales, M., & Germano, J. (2017).Experiência interdisciplinar nas engenharias aeronáuticas: uma proposta para o aprender fazendo. In Cobenge 2017- Inovação no Ensino/ Aprendizagem em Engenharia.

Ramírez-Cadena, M., Vargas-Rodríguez, R., Morales-Menéndez, R., & Guedea, F. (2008, January). Educational strategy based on active learning for mechatronics labs. In Proc. of the 17th IFAC World Congress (pp. 851-856).

https://doi.org/10.3182/20080706-5-KR-1001.00146

Rocha, M. A., & Solaque, L. E. (2013). Concept design for an unmanned aerial vehicle that will perform explora- tion missions in Colombia. IFAC Proceedings Volu- mes, 46 (30), 193-197.

https://doi.org/10.3182/20131120-3-FR-4045.00028

Suzigan W. & Da Motta, E. (2011). The underestimated role of universities for the Brazilian

https://doi.org/10.1590/S0101-31572011000100001

System of innovation. Brazilian Journal of Political Economy, 31(1), 03-30.

Tomio, D., & Hermann, A. P. (2019). Mapeamento dos Clu- bes de Ciências da América Latina e Construção do Site da Rede Internacional de Clubes de Ciências. Ensaio Pesquisa em Educação em Ciências (Belo Horizonte), 21.

https://doi.org/10.1590/1983-21172019210111

Torenbeek, E. & Wittenberg, H. (2009). History of aviation. Flight Physics: Essentials of Aeronautical Discipli- nes and Technology, with Historical Notes, 1-46.

https://doi.org/10.1007/978-1-4020-8664-9_1

Trilling, Bernie & Fadel, Char- les. (2009). 21st Century skills. Learning for life in our times. Jossey-Bass. Wiley Imprint. Wiley & Sons, Inc. San Francisco, USA, 69.

UAV Coelum. (2019). UAV COELUM - CIAC S.A. Available from https://www.ciac.gov.co/ productos-y-servicios/dise- no-y-desarrollo/uav-coelum/ [Accessed 1 February 2019]

STEM Learning Based on Aircraft Design: An Interdisciplinary Strategy Developed to Science Clubs Colombia

Authors

DOI:

Keywords:

Abstract

Downloads

Author Biographies

References

Downloads

Published

Issue

Section

License

Assignment of Copyrights

Creative Commons License

How to Cite

Language

botones

incluida_en

tutoriales

Information

Statistics