Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Study of Secondary and Higher Secondary School Syllabi in India to Develop Engineering Thinking


Affiliations
1 Centre for Engineering Education Research, KLE Technological University, Vidyanagar, Hubli 580031, India
2 The University of Oklahoma, Norman 73069, United States
3 Milwaukee School of Engineering, WI 53202, United States
     

   Subscribe/Renew Journal


In this article, the authors explore and understand what constitutes engineering thinking and whether secondary and higher secondary school curricula in India empower students to make an informed decision regarding engineering as a career choice. To analyse the elements of engineering thinking, the principles of K12 level engineering by t he Na t io nal Aca demy of E nginee ri ng a nd Engineering Habits of Mind (EHoM) by the Royal Academy of Engineering are referred to. The syllabi of the Central Board of Secondary Education (CBSE) and four Indian states (Tamil Nadu, Maharashtra, Andhra Pradesh and Karnataka) are studied, which reveal that CBSE includes only one element of EHoM (creative problem-solving) in higher secondary grade curriculum. The syllabi of four Indian states revealed that the principles identified by the National Academy of Engineering (NAE) are missing in both grades. As an exception, the syllabus of Maharashtra has a creative problem-solving element in class-12 of higher secondary grades. The authors believe that introducing engineering thinking in schools will empower students to choose engineering as a career.

Keywords

Engineering habits of mind, Engineering thinking, Indian school curriculum, STEM, secondary and higher secondary school.
Subscription Login to verify subscription
User
Notifications
Font Size


  • Atal Tinkering Lab (2018). Retrieved February 1, 2019, from http://www.aim.gov.in/ataltinkering- labs.php.
  • Samuel, D. A. (2013, June 9). Engineering a future ? The Hindu . https://www.thehindu.com/features/education/e ngineering-a-future/article4794903.ece
  • Ministry of Education in Singapore. (2014). Primary School Education: Preparing Your Chi ld for Tomorr ow. Singapore: MOE Communications and Engineering Group. Retrived September 30 , 2021 , f r o m https://www.readkong.com/page/primaryschool- education-preparing-your-child-fortomorrow- 8231703
  • National Council for Science & Technology Communication NCSTC | Department Of Science & Technology. (n.d.). Retrieved September 3 0 , 2021 , from https://dst.gov.in/scientific-programmes/stand- socio-economic-development/nationalcouncil- science-technology-communicationncstc
  • National Employability Report—Engineers Annual Report 2016 | PDF | Business Process Outsourcing | Sales. (n.d.). Scribd. Retrieved September 30 , 2021 , from https://www.scribd.com/document/350743380/ National-Employability-Report-Engineers- Annual-Report-2016
  • States Union Territories, Know India: National Portal of India. (n.d.). Retrieved September 30, 2021 , from https://knowindia.india.gov.in/states-uts/.
  • STEM Ambassador Programme | STEM. (n.d.). Retrieved September 3 0 , 2 0 2 1 , f r o m https://www.stem.org.uk/stem-ambassadors/ [8] The STEM Education in China: There's a Long Way to Go | LinkedIn. (n.d.). Retrieved September 30 ,2021 from,https : / / www. linkedin . com / pulse / stem - education-china-theres-long-way-go-yiweizhang/
  • AICTE. 2018. "All India Council for Technical Education Approval Process Handbook (2017 - Google Search." n.d. Accessed June 29, 2018.
  • AICTE. n.d, Facilities.Aicte-India.Org. Retrieved june 29 , 2018 from https : // www . facilities . aicte - india.org/dashboard/pages/dashboardaicte.php.
  • Bevan, B., Gutwill, J. P., Petrich, M., & Wilkinson, K. (2015). Learning through STEM‐rich tinkering: Findings from a jointly negotiated research project taken up in practice. Science Education, 99(1), 98-120.
  • Bicer, A., Navruz, B., Capraro, R. M., Capraro, M. M., Oner, T. A., & Boedeker, P. (2015). STEM schools vs. non-STEM schools: Comparing students' mathematics growth rate on high-stakes test performance. International Journal of New Trends in Education and Their Implications, 6(1), 138-150.
  • British Council, 2014. "Indian School Education System An Overview." British Council, the United Kingdom's International Organization for Educational Opportunities and Cultural Relations.
  • Çalik, M., & Coll, R. K. (2012). Investigating socioscientific issues via scientific habits of mind: Development and validation of the scientific habits of mind survey. International Jour nal of Sci ence Educat ion, 34(12) ,1909–1930.
  • Costa, A. L., & Kallick, B. (2000). Discovering and exploring habits of mind. Explorations in Teacher Education, 36.
  • Cuoco, A., Goldenberg, E. P., & Mark, J. (1996). Habits of mind: An organising principle for mat hemati cs curr ic ula . The Journal of Mathematical Behavior, 15(4), 375-402.
  • DazeInfo. (2018). "1.5 Million Engineering Pass Outs in India Every Year, Fewer Getting Hired. Retrieved October 28, 2014. From https://dazeinfo.com/2014/10/28/1-5-millionengineering- pass-outs-india-every-year-fewergetting- hired-trends.
  • Dym, C. L., Agogino, A. M., Eris, O., Frey, D. D., & Leifer, L. J. (2005). Engineering design thinking, teaching, and learning. Journal of engineering education, 94(1), 103-120.
  • Gauld, C. F. 1982. "A Study of the Scientific Attitude of Science Educators Who Study Scientific Attitudes." Research in Science Education 12 (1): 115–120.
  • Halverson, E. R., & Sheridan, K. (2014). The maker movement in education. Harvard educational review, 84(4), 495-504.
  • Harrison, M., Mann, L., Nolan, D., & Royal Academy of Engineering (Great Britain). (2013). Enhancing STEM education in secondary schools: Outputs of the engineering engagement programme.
  • Hindustan times. n.d, "BTech and Bust: Why Indians Rush to Be Engineers When There Are No Jobs." Retirieved August 23, 2017 from https : / / Www. Hindustan times . Com / . . https: // www.hindustant imes.c om/ i ndia - news/is-the-engineering-dream-over-after-iitstudents- now-prefer-mba-and-govt-jobs/storyskQp6FdebWG7o1qSnnDUKO. html
  • Indiatoday. n.d. "Increasing Number of IIT Seats Going Vacant, Maximum at IIT-BHU - India News Retired June 29 , 2018 from https://www.indiatoday.in/india/story/increasin g-number-of-iit-seats-going-vacant-maximumat- iit-bhu-1197394-2018-03-25.
  • Jacobs, I. M., Vest, C. M., Savitz, M. L., Budinger, T. F., & Bugliarello, G. (n.d.). National Academy of Engineering. 60, https://www.nae.edu/File.aspx?id=16147 , 60.
  • Jho, H., Hong, O., & Song, J. (2016). An analysis of STEM/STEAM teacher education in Korea with a case study of two schools from a community of practice perspective. Eurasia Journal of Mathematics, Science and Technology Education, 12(7), 1843-1862.
  • Katehi, L., Pearson, G., & Feder, M. (2009). The status and nature of K-12 engineering education in the United States. The Bridge, 39(3), 5-10. [27] Kennedy, T. J., & Odell, M. R. L. (2014). Engaging students in STEM education. Science Education International, 25(3), 246-258.
  • Krathwohl, D. R. (2002). A revision of Bloom's taxonomy: An overview. Theory into practice, 41(4), 212-218.
  • Lachapelle, C. P., & Cunningham, C. M. (2007, March). Engineering is elementary: Children's changing understandings of Science and engineering. In ASEE Annual Conference & Exposition (Vol. 33).
  • Lucas, B., Claxton, G., & Hanson, J. (2014). Thinking Like an Engineer: Implications for the ed uca t i on syst em., Ro ya l Ac ademy of Engeneering. Retrived from http s : // www. raeng . org . u k / news / news - releases/2014/may/do-you-think-like-anengineer.
  • Marginson, S., Tytler, R., Freeman, B., & R o b e r t s , K . ( 2 0 1 3 ) . STEM : Country comparisons. Report for the Australian Council of Learned Academies. Retrieved February, 23, 2019.
  • Ministry of Education and Culture.(2012). Finnish Education in a Nutshell. [33] Martin, L. (2015). The promise of the maker movement for education. Journal of Pre- College Engineering Education Research (JPEER), 5(1), 4.
  • Committee on Prospering in the Global Economy of the 21st Century. (2007). Rising above the gathering storm: Energising and employing America for a brighter economic future. Washington, DC: National Academies Press. https://doi.org/10.17226/11463.
  • National Research Council. (2011). Successful STEM education: A workshop summary. National Acadamies Press . https://doi.org/10.17226/13230.
  • National Research Council. (2011). Successful K-12 STEM education: Identifying effective approach Science , technology, engineering, and mathematics. National Academies Press.
  • Holdren, J. P., Lander, E., & Varmus, H. (2010). Prepare and inspire: K-12 Science, technology, engineering, and math (STEM) education for America's future. Executive Office of the President, The President's Council of Advisor on Science and Technology. Washington: DC. Retrieved from http://www.whitehouse.gov/sites/default/files/ microsites/ostp/pcast-stemed-report.pdf.
  • Schön, S., Ebner, M., & Kumar, S. (2014). The Maker Movement. Implications of new digital gadgets, fabrication

Abstract Views: 110

PDF Views: 1




  • Study of Secondary and Higher Secondary School Syllabi in India to Develop Engineering Thinking

Abstract Views: 110  |  PDF Views: 1

Authors

Preethi Baligar
Centre for Engineering Education Research, KLE Technological University, Vidyanagar, Hubli 580031, India
Javeed Kittur
The University of Oklahoma, Norman 73069, United States
Gopalkrishna Joshi
Centre for Engineering Education Research, KLE Technological University, Vidyanagar, Hubli 580031, India
Sohum Sohoni
Milwaukee School of Engineering, WI 53202, United States

Abstract


In this article, the authors explore and understand what constitutes engineering thinking and whether secondary and higher secondary school curricula in India empower students to make an informed decision regarding engineering as a career choice. To analyse the elements of engineering thinking, the principles of K12 level engineering by t he Na t io nal Aca demy of E nginee ri ng a nd Engineering Habits of Mind (EHoM) by the Royal Academy of Engineering are referred to. The syllabi of the Central Board of Secondary Education (CBSE) and four Indian states (Tamil Nadu, Maharashtra, Andhra Pradesh and Karnataka) are studied, which reveal that CBSE includes only one element of EHoM (creative problem-solving) in higher secondary grade curriculum. The syllabi of four Indian states revealed that the principles identified by the National Academy of Engineering (NAE) are missing in both grades. As an exception, the syllabus of Maharashtra has a creative problem-solving element in class-12 of higher secondary grades. The authors believe that introducing engineering thinking in schools will empower students to choose engineering as a career.

Keywords


Engineering habits of mind, Engineering thinking, Indian school curriculum, STEM, secondary and higher secondary school.

References