Open Access
E3S Web Conf.
Volume 258, 2021
Ural Environmental Science Forum “Sustainable Development of Industrial Region” (UESF-2021)
Article Number 07087
Number of page(s) 13
Section Psychology of Environmentally Responsible Behavior
Published online 20 May 2021
  1. A. I. Rudskoy, A. A. Aleksandrov, P. S. Chubik, A. I. Borovkov, P. I. Romanov, A. N. Sharapov, Strategy for the development of engineering education in the Russian Federation for the period until 2020. Project, 55 (St. Petersburg: Publishing House of the Polytechnic University, 2017) [Google Scholar]
  2. D. L. Saprykin, Engineering education in Russia: history, concept, prospects. Higher education in Russia, 1, 125–137 (2012) [Google Scholar]
  3. V. A. Akatiev, L. V. Volkova, Engineering education in post-industrial Russia. Modern problems of science and education, 5, 40 (2014) [Google Scholar]
  4. H. A. Thagapsoev, M. M. Yakhutlov, To problems of engineering education in modern Russia. Quality. Innovation Education, 8-10(135-137), 11–17 (2016) [Google Scholar]
  5. N. P. Kirillov, The methodology of the concept of engineering education in modern Russia (philosophical, scientific and pedagogical aspect). Engineering Education, 11, 10–17 (2012) [Google Scholar]
  6. J. Preece, The Trouble with Higher Education: A critical examination of our universities. International Journal of Lifelong Education, 29(6), 770–772 (2010) [Google Scholar]
  7. M. N. Garanina, V. V. Kondratiev, Methodology of innovative engineering education. Kazan Science, 5, 11–19 (2012) [Google Scholar]
  8. E. F. Zeer, V. S. Tretyakova, I. A. Kurochina, T. D. Bukovei, T. V. Beresneva, Teacher’s Competitiveness at Different Stages of Professional Development. Humanities & Social Sciences Reviews, 7(4), 1108–1119 (2019) [Google Scholar]
  9. M. Waring, C. Evans, Understanding Pedagogy: Developing a critical approach to teaching and learning, 274 (London, Routledge, 2014) [Google Scholar]
  10. S. Brophy, S. Klein, M. Portsmore, C. Rogers, Advancing Engineering Education in P-12 Classrooms. Journal of Engineering Education, 97, 369–387 (2008) [Google Scholar]
  11. G. N. Akhmetzyanova, Formation of the competency model of a graduate of a specialized engineering class, Prospects of science, 5(7), 51–53 (2010) [Google Scholar]
  12. N. P. Kirillov, Yu. S. Plotnikov, An innovative model of engineering education: a triple helix metaphor. Management Problems in Social Systems, 4(6), 74–86 (2012) [Google Scholar]
  13. O. I. Rebrin, I. I. Sholina, New models of engineering education, University Management: Practice and Analysis, 2(102), 61–71 (2016) [Google Scholar]
  14. G. Gibbs, S. Habeshaw, T. Habeshaw, 53 Interesting Things to do in Your Seminars and Tutorials, 134 (Virginia: Technical and Educational Services Ltd., 2012) [Google Scholar]
  15. J. Gainsburg, The mathematical modeling of structural engineers. Mathematical Thinking and Learning, 8, 3–36 (2006) [Google Scholar]
  16. D. Radcliffe, Engineering Competence An Interpretive Investigation of Engineering Students’ Professional Formation. Journal of Engineering Education, 100, 703–740 (2011) [Google Scholar]
  17. J. A. Stone, Integrating Apple iPads into University Computing Courses. International Journal of Modern Education and Computer Science (IJMECS), 8(9), 1–11 (2016) [Google Scholar]
  18. G. N. Vovchenko, U. A. Albekov, F. T. Romanova, V. T. Epifanova, Study of Factor, Which Facilitate Increase of Effectiveness of University Education. International Journal of Educational Management, 31(1), 12–20 (2017) [Google Scholar]
  19. M. I. Abashin, A. L. Galinovsky, A. R. Denisov, M. V. Zosimov, Promising models of engineering education. Bulletin of Kostroma State University. Series: Pedagogy. Psychology. Sociokinetics, 23(2), 6–11 (2017) [Google Scholar]
  20. S. A. Bezklubaya, The humanitarian environment of a technical university as the basis for the formation of a competitive specialist. Human Capital, 5(113), 56–68 (2018) [Google Scholar]
  21. V. A. Sultanova, S. O. Chechina, Human Capital as a Key Factor of Economic Growth in Crisis. European Research Studies Journal, 19(2), 72–79 (2016) [Google Scholar]
  22. C. Shawn, I. Hewer, The impact of the Bologna process on nursing higher education in Europe: A review. International Journal of Nursing Studies, 51(1), 150–156 (2014) [CrossRef] [PubMed] [Google Scholar]
  23. R. A. W. Tortorella, C. N. S. Kinshuk, S. Graf, A Classification Framework for Context-aware Mobile Learning Systems. International Journal of Modern Education and Computer Science (IJMECS), 9(7), 1–11 (2017) [Google Scholar]
  24. A. L. Galinovsky, Yu.V. Badanina, V.A. Moiseev, Competency portrait of a specialist in new models of engineering education. Bulletin of Perm National Research Polytechnic University. Problems of linguistics and pedagogy, 3, 139–149 (2017) [Google Scholar]
  25. V. N. Khalamov, A model of additional education of children for the training of engineering personnel in Russia. Public Education. 2-3(1455), 135–138 (2016) [Google Scholar]
  26. R. W. Lent, Social cognitive predictors of academic interests and goals in engineering: Utility for women and students at historically black universities. Journal of Counseling Psychology, 52(1), 84–92. (2005) [Google Scholar]
  27. O. A. Karlova, N. I. Pak, The model of continuing education of the school of the future (for example, an engineering school). Open Education, 4(99), 98–104 (2013) [Google Scholar]
  28. A. G. Stanevsky, L. P. Khrapilina, Conceptual approaches to designing key areas for the organization of training for people with hearing impairment in undergraduate programs in the field of education «Engineering, Technology and Engineering». Psychological Science and Education, 22(2), 87–96 (2017) [Google Scholar]
  29. I. V. Tsvetkov, D. Yu. Pravnik, The system of pre-university training «school - NRNU MEPhI». Higher education in Russia, 6, 121–125 (2017) [Google Scholar]
  30. O. O. Gorshkova, Concept of research training of technical universities students. The European Proceedings of Social & Behavioural Sciences EpSBS364–372 (2019) [Google Scholar]
  31. V. N. Kruglikov, Experimental methods of studying theory in an engineering university. Education and Science, 20(6), 50–69 (2018) [Google Scholar]
  32. S. Allie, M. N. Armien, N. Burgoyne, J. Case, et al., Learning as acquiring a discursive identity through participation in a community: Improving student learning in engineering education. European Journal of Engineering Education, 34(4), 359–367 (2009) [Google Scholar]
  33. E. M. Dorozhkin, E. F. Zeer, Methodology of vocational pedagogical education: theory and practice (theoretical and methodological foundations of vocational pedagogical education). Education and Science, 9, 4–20 (2014) [Google Scholar]
  34. G. Racko, E. Oborn, M. Barrett, Developing collaborative professionalism: an investigation of status differentiation in academic organizations in knowledge transfer partnerships. The In-ternational Journal of Human Resource Management, 30(3), 457–478 (2019) [Google Scholar]
  35. N. Salzman, D. Ricco George, M. Ohland, Pre-College Engineering Participation Among First-Year Engineering Students. School of Engineering Education Graduate Student Series, 6, 1–29 (2014) [Google Scholar]
  36. E. G. Creamer, Yu. Rongrong, Involvement in Out-of-Class Activi-ties: A Mixed Research Synthesis Examining Outcomes with a Focus on Engineering Students. Journal of STEM Education: Innovations & Research, 18(2), 10–16 (2017) [Google Scholar]

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