New Directions in the Teaching of Natural Sciences

The perceptions of transferable and workplace skills development of year one and two chemistry undergraduate students at the University of Leicester were measured using two questionnaires. This group of students is taught be a variety of approaches including Problem and Context Based Learning (C/PBL). Over 60% of respondents agreed that all discipline specific and transferable skills included in the first questionnaire were important skills for chemistry graduates to have. The perceived importance of most skills does not vary between year groups but there are small increases in perceived importance for most transferable skills. In a separate questionnaire, first year students were asked to rate their skills development following a series of Context and Problem Based Learning (C/PBL) activities. "problem solving", "time management", "working in a team“ and "oral communication" were the most developed skills based on student responses. This element of the study also provided evidence to suggest that students believe the “real-world”, authentic nature of C/PBL problems may be an important factor in determining the extent of skills development.

Keywords: Transferable skills, Workplace skills, Employability, Chemistry education

Belt S., Evans E. H., McCreedy T., Overton T. L., & Summerfield S., (2002). A problem based learning approach to analytical and applied chemistry. University Chemistry Education, 6, 65-72.

Engel, C.E. (1997). Not Just a Method but a Way of Learning. In D, Boud. & G, Feletti. (Eds.) The Challenge of Problem Based Learning. London: Kogan-Page.

Freeman, S., Eddy, S.L., McDonagh, M., Smith, M.K., Okoroafor, N., Jordt, H. & Wenderoth, M.P. (2014). Active learning increases student performance in science, engineering and mathematics. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 111(23), 8410-8415. doi: 10.1073/pnas.1319030111

Hanson, S. & Overton, T. (2010), Skills Required by New Chemistry Graduates in Development of Degree Programmes, The Higher Education Academy, http://www.rsc.org/learn-chemistry/resources/business-skills-and-commercial-awareness-for-chemists/docs/skillsdoc1.pdf [Accessed 07 September 2016]

Honebein, P. C., Duffy, T. M. & Fishman, B. J. (1993). Constructivism and design of learning environments: context and authentic activites for learning. In T.M. Duffy, J. Lowyck, & D. H. Jonassen. (Eds.) Designing Environments for Constructive Learning. Berlin: Springer-Verlag.

Kelly, O. C. & Finlayson, O. E. (2007). Providing solutions through problem-based learning for the undergraduate 1st year chemistry laboratory. Chemistry Education Research and Practice, 8(3), 347-361. doi: 10.1039/B7RP90009K

Lancaster, S. & Read, D. (2013), Flipping lectures and inverting classrooms, Education in Chemistry, September 2013, 14-17

Raine, D. J. & Symons, S. L. (2005). PossiBiLities a Practice Guide to Problem-based Learning in Physics and Astronomy. Higher Education Academy, UK Physical Sciences Centre.

Savery, J.R. & Duffy, T. M. (1995). Problem based learning: An instructional model and its constructivist framework. Educational Technology, 35(5), 31-38.

Sedghi, G. (2013), Peer assisted learning at the Department of Chemistry for home and international students, New Directions, 9 (1), 14-17. doi:10.11120/ndir.2013.00005

Seery, M. K. (2013), SELF-CHEM: Student Engagement in Learning Through Flipped Chemistry Lectures, DIT Learning, Teaching & Technology Centre, 54-58

Summerfield, S., Overton, T. & Belt, S. (2003), Problem-solving case studies. Analytical Chemistry, 75, 181-182. doi: Problem-solving case studies. Analytical Chemistry

Williams, D. P. (2015), "Problem Based Learning Approaches to Teaching Chemistry", in Blessinger, P. & Carfora, J. M. (ed.) Inquiry-Based Learning for Science, Technology, Engineering, and Math (Stem) Programs: A Conceptual and Practical Resource for Educators (Innovations in Higher Education Teaching and Learning, Volume 4) Emerald Group Publishing Limited, pp.93 – 112. doi: 10.1108/S2055-364120150000004007

Williams, D. P. (2016), Creating an Assessment and Feedback Strategy for Problem Based Learning Chemistry Courses, Student Engagement in Higher Education Journal, 1 (1).

Williams, D. P., Woodward, J. R., Symons, S. L. & Davies, D. L. (2010), A Tiny Adventure: the introduction of problem based learning in an undergraduate chemistry course, Chemical Education Research and Practice, 11, 33-42. doi: 10.1039/c001045f