Name of presentation Month 2008
A multi-disciplinary study of the benefits students gain from
engaging in research experiences
Dr Kirsten Zimbardi & Dr Paula Myatt
The University of Queensland, Brisbane, Australia
HERDSA July 2011
HERDSA 2011
Undergraduate Research
For the students who are the professionals of the future, developing the ability to investigate problems, make judgements on the basis of sound evidence, take decisions on a rational basis, and understand what they are doing and why is vital.
Research and inquiry is not just for those who chose to pursue an academic career. It is central to professional life in the twenty first century. (Brew, 2007)
Consider…
HERDSA 2011
..educational research suggests these practices increase student retention and engagement
1. First-Year Seminars and experiences
2. Common Intellectual Experiences
3. Learning Communities
4. Writing-Intensive Courses
5. Collaborative Assignments and projects
6. Undergraduate Research
7. Diversity/Global learning
8. Service learning, Community-Based Learning
9. Internships
10. Capstone Courses and Projects
High-Impact Educational Practices
From Kuh, G. (2008) High-Impact Educational Practices
HERDSA 2011
Undergraduate Research –a definition
Undergraduate Research:
Any teaching and learning activity in which undergraduate students are actively engaged with the research content, processes or problems of their discipline.
• We acknowledge that this is a broad definition.
• Designed to be inclusive of many activities across all disciplines.
HERDSA 2011
..educational research suggests these practices increase student retention and engagement
1. First-Year Seminars and experiences
2. Common Intellectual Experiences
3. Learning Communities
4. Writing-Intensive Courses
5. Collaborative Assignments and projects
6. Undergraduate Research
7. Diversity/Global learning
8. Service learning, Community-Based Learning
9. Internships
10. Capstone Courses and Projects
High-Impact Educational Practices
From Kuh, G. (2008) High-Impact Educational Practices
HERDSA 2011
Benefits of undergraduate research experiences
Benefit theme Hunter et al 2006
Thinking and Working like a “Scientist” 23%
Becoming a “Scientist” 20%
Personal-Professional gains 19%
Career Clarification 16%Career/Graduate School Preparation 10%
Skills 8%
Generalised gains 4%
Working Independently <1%
Hunter et al (2006)
HERDSA 2011
This study aimed to further our understanding of the benefits of undergraduate research experiences currently available across a range of disciplinary contexts at a research intensive university.
The investigation asked the questions:
1. What specific student learning outcomes are believed to be achieved through undergraduate research experiences?
2. Do the findings match those of previously reported studies? What difference, if any, can be identified?
3. Are the most commonly (frequently) reported benefits in this Australian study similar to or different from the benefits reported in previous studies in different educational contexts?
Undergraduate Research at UQ‘Bridging the Gap’
HERDSA 2011
Searched for examples of students actively engaged in research
• 135 cases of undergraduate research identified
Semi-structured group interviews of coordinators
• ~50% participation rate 72 detailed descriptions
– Case studies available in Farrand-Zimbardi et al (2010)
• Covered broad range of disciplines (26 Schools)
• 94% of cases were courses
Benefits to students of participating in these research activities
• Identified in transcripts
• Matched with 8 themes from Hunter et al (2006)
• Represented as the proportion of total benefits represented by each theme
Characterisation of undergraduate research experiences
HERDSA 2011
Benefits of active participation in undergraduate research
Benefit theme
Thinking and Working like a “Researcher or Professional”*
Becoming a “Researcher or Professional” *
Personal-Professional gainsCareer ClarificationCareer/Graduate School PreparationSkillsGeneralised gainsWorking Independently
*Originally “Scientist” in Hunter et al (2006)
Thinking and Working like a “Scientist” Thinking and Working like a “Researcher or Professional”
Becoming a “Scientist” Becoming a “Researcher or Professional”
HERDSA 2011
Benefits of undergraduate research experiences
Hunter et al (2006)
Benefit theme Hunter et al 2006
UQ study
% Rank % Rank
Thinking and Working like a “Researcher or Professional”*
23% 1 23% 2
Becoming a “Researcher or Professional” *
20% 2 12% 4
Personal-Professional gains 19% 3 8% 5Career Clarification 16% 4 8% 5Career/Graduate School Preparation
10% 5 18% 3
Skills 8% 6 25% 1Generalised gains 4% 7 2% 7Working Independently <1% 8 4% 6
HERDSA 2011
Particularly communication skills
• Linked explicitly to assessment
“…and finally, the most important thing is documentation. Whatever the design, when we are presenting this to your client, the client doesn’t want to know whether you did an elastic analysis or linear and whatever. It’s important which documents you are presenting” (Civil Engineering)
“So they actually have to think about a research question and then in their final paper they have to do a literature review, pose their hypothesis, do the analysis, interpret the results, come up with the conclusion” (Sociology and Criminology)
• Lopatto (2009) noted same shift moving from summer to course based models of undergraduate research
Skills
HERDSA 2011
Thinking and Working like a Researcher or Professional
Experiential learning
• Embedded in design of student activities
“From the beginning of the semester the idea is really that the research that they’re doing will be the kind of things that architects do anyway.” (Architecture)
• Applying research skills to solve complex industry-relevant problems
“The projects we use are real industry projects…if we get them familiar with the real industry projects, they will not be afraid of tackling any project they are … given in industry when they start working.” (Mechanical and Mining Engineering)
HERDSA 2011
Research experience for a broad range of career destinations
• Using the outcomes of their research projects in interviews to gain employment
“…because they do a project, there is an output at the end of it and so they have management plan or a really comprehensive report that they have developed or something that they can take to interview.” (Environmental Management)
• Enhancing their CV and developing networks of contacts
“I think it gives students who are participating in these competitions get a real head start in their careers, not only because it looks good on your CV and because… members of the profession are often involved in judging practice moots” (Law)
Career and/or Graduate School Preparation
HERDSA 2011
Benefits from narrow context applicable across much broader contexts
•Science 26 disciplines
•Summer curriculum
•Apprenticeship diverse models of research experience
Changes in relative frequency of reported benefits
•Experiential learning ranked near top
•Skills and Enhanced Career and/or Graduate School Preparation more highly ranked in broader context
•Use of assessment to ensure skills attained
•Engage a greater number of students with career plans outside academic research
Conclusions and Implications
HERDSA 2011
Undergraduate Research
For the students who are the professionals of the future, developing the ability to investigate problems, make judgements on the basis of sound evidence, take decisions on a rational basis, and understand what they are doing and why is vital.
Research and inquiry is not just for those who chose to pursue an academic career. It is central to professional life in the twenty first century. (Brew, 2007)
Consider…
HERDSA 2011
Contact details for authors:
Dr Kirsten Zimbardi [email protected]
Dr Paula [email protected]
Acknowledgements
Research Project Team Peter Adams, Caroline Crosthwaite, Julie Duck, Lesley Lluka, Margaret Wegener & Joanne Blanchfield
Research assistants Nicole van der Burg, Amelia Arnold & Liam Coulthard
URE Coordinators From across all 7 Faculties!
Funding UQ Strategic T&L Grant
HERDSA 2011
Brew, A. (2007) Research and Teaching from the students’ perspective, Southampton Solent University, Research and Teaching International Colloquium, 18-20 April. Available from: http://portal-live.solent.ac.uk/university/rtconference/2007/resources/angela_brew.pdf
Farrand-Zimbardi, K., van der Burg, N., & Myatt, P. (2010). Undergraduate Students’ Research Experiences: Bridging the Gap Between Teaching and Research in a Research-Intensive University. Paper presented at the Report for the University of Queensland Strategic Teaching and Learning Grants Scheme. Available from: http://espace.library.uq.edu.au/view/UQ:212669
Healey, M. & Jenkins, A. (2009) Developing undergraduate research and inquiry. The Higher Education Academy. The Higher Education Academy. (149 pages) Available from: http://www.heacademy.ac.uk/assets/York/documents/resources/ publications/DevelopingUndergraduate_Final.pdf
Hunter, A., Laursen, S. & Seymour, E. (2007) Becoming a scientist: the role of undergraduate research in students’ cognitive, personal and professional development. Science Education, 91, 36-74.
Kuh, G. (2008). “High Impact educational practices: What they are, who has access to them, and why they matter.” Association of American Colleges and Universities (AAC&U), 44 pages.
Lopatto, D. (2009) “Science in Solution: The Impact of Undergraduate Research on Student Learning”, Published by Research Corp. for Science Advancement, 132pp.
References