| Module Title |
Practitioner Inquiry in Physics Education 2 & Physics Laboratory 3 |
| Module Code |
PHY1014 (ITS: PS483) |
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Faculty |
Physical Sciences |
School |
Science & Health |
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NFQ level |
8 |
Credit Rating |
7.5 |
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Description
This module will provide students with the necessary practical skills and competencies to design and carry out physics experiments appropriate to the junior and senior cycle physics second level curricula. The workshops will develop future physics teachers pedagogical content knowledge (PCK) and metacognition skills through inquiry-based teaching, learning and assessment approaches.
Students will be provided an opportunity to inquire into their own practice of using IBL through the use of Practitioner Inquiry, a systematic study by a teacher used to inquiry into their own practice. Parallels will be drawn between IBL for students and Practitioner Inquiry (PI) for teachers. Students enrolled in this module will form their own professional learning community, and through this community inquire into their own practice using a practitioner inquiry approach. By engaging in this module, students will:
Learn about and conduct a Practitioner Inquiry (PI)
Become an active member of a Professional Learning Community (PLC)
Learn about and work collaboratively to build skills in Inquiry Based Learning (IBL) in Physics Education.
By collaboratively reviewing, critiquing and developing teaching, learning and assessment practices in Physics Education, student will develop skills that will prepare them to be future leaders of Physics Education in schools. By participating in professional learning communities they will also develop skills that will allow them to build future relationships with early year's practitioner, teachers, learners, parents and the wider STEM community.
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Learning Outcomes
1. Use theories, concepts and evidence from key educational research to reflect on current teaching, learning and assessment practices in Physics education.
2. Demonstrate their understanding of how different elements of IBL can be used in different classroom contexts.
3. Design a Practitioner Inquiry (PI) to inquire into their own practice of using IBL in Physics education.
4. Conduct a Practitioner Inquiry to inquire into their own practice of using IBL in Physics education
5. Demonstrate expertise to actively participate in Professional Learning Communities (PLCs) with teachers and other stakeholders in education.
6. Engage in critical discussion and debate relating to physics education.
7. Demonstrate a knowledge and understanding of a wide range physics experiments appropriate to the junior and senior
cycle physics curricula
8. Apply inquiry based learning approaches for teaching physics as a laboratory subject at Junior and Senior Cycle level
9. Reflect on inquiry based learning approaches to teaching, learning and assessement in physics
10. Apply appropriate safe laboratory practices
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| Workload | Full time hours per semester | | Type | Hours | Description |
|---|
| Laboratory | 18 | Laboratory based investigations | | Professional Practice | 36 | Conduct and Report on own Practitioner Inquiry | | Assignment Completion | 18 | Prepare plan and presentation of own investigations | | Fieldwork | 115.5 | Independent preparation and reflections | | Workshop | 18 | Students will engage in inquiry based physics workshops designed specifically for use with in-service and pre-service teachers. The development of critical thinking skills, scientific modelling, pedagogical content knowledge (how to teach the material) and metacognition (how do I know that I know what I know) are firmly embedded in these workshops. Students will submit laboratory portfolio of investigations conducted. | | Professional Practice | 10 | Students will be supported as a member of a professional learning community to carrry out their own Practitioner Inquiry on the use of Inquiry based learning in the classroom. | | Report | 18 | Students will showcase and discuss the role and impact of inquiry based learning and practitioner inquiry approaches in physics education. | | Independent Study | 142 | Student self-directed learning |
| Total Workload: 375.5 |
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| Section Breakdown | | CRN | 11352 | Part of Term | Semester 1 | | Coursework | 0% | Examination Weight | 0% | | Grade Scale | 40PASS | Pass Both Elements | Y | | Resit Category | RC1 | Best Mark | N | | Module Co-ordinator | Eilish McLoughlin | Module Teacher | |
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| Assessment Breakdown |
| Type | Description | % of total | Assessment Date |
|---|
| Professional Portfolio | Submit a professional portfolio to showcase the design and use of inquiry based learning in the classroom. Report on findings from data/evidence collected as part of a practitioner inquiry. Reflect on and share experiences of working as part of a Professional Learning Community to carry out a practitioner inquiry. | 67% | Once per semester | | Laboratory Portfolio | Submit a laboratory portfolio for experiments conducted during the semester. | 33% | Once per semester |
| Reassessment Requirement Type |
Resit arrangements are explained by the following categories;
RC1: A resit is available for both* components of the module.
RC2: No resit is available for a 100% coursework module.
RC3: No resit is available for the coursework component where there is a coursework and summative examination element.
* ‘Both’ is used in the context of the module having a coursework/summative examination split; where the module is 100% coursework, there will also be a resit of the assessment
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Pre-requisite |
None
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Co-requisite |
None |
| Compatibles |
None |
| Incompatibles |
None |
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All module information is indicative and subject to change. For further information,students are advised to refer to the University's Marks and Standards and Programme Specific Regulations at: http://www.dcu.ie/registry/examinations/index.shtml
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Indicative Content and Learning Activities
Practitioner inquiry
Students will participate in a professional learning community to support them carrying out a practitioner inquiry on the use of inquiry based learning in their own classroom. Participation in the community will require online communication with other members of the PLC. During this period students will complete tasks related to their practitioner inquiry. These tasks will be included in their final professional portfolio.
Experimental Investigations
Students will engage in experimental investigations in Physics and develop skills in designing and carrying out investigations in physics.
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Indicative Reading List
Books:
- Dana, N. & Yendol-Hoppey, D.,: 2014, The Reflective Educator's Guide to Classroom Research: Learning to Teach and Teaching to Learn Through Practitioner Inquiry, 2nd Edition, Corwin,
- Dana, N. , Thomas, C. and Boynton S.: 2011, Inquiry. A Districtwide Approach to Staff and Student Learning,, Corwin Sage Company.,
- Harlen W.: 2012, Inquiry in science education, https://www.fondation-lamap.org/sites/default/files/upload/media/minisites/action_internationale/inquiry_in_science_education.pdf,
- McDermott, L.C.: 1996, Physics by Inquiry: An Introduction to Physics and the Physical Sciences, John Wiley & Sons,
- Timperley, H., Wilson, A., Barrar, H., & Fung, I.: 2007, Teacher professional learning and development: Best evidence synthesis iteration, https://www.educationcounts.govt.nz/publications/series/2515/15341, Auckland, New Zealand: University of Auckland,
Articles:
- Hord, S.M.: 2009, Professional Learning Communities: Educators Work Together towards a Shared Purpose., Journal of Staff Development, 30, 40,
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Other Resources
- 1: Website, ESTABLISH, European Science and Technology in Action: Building Links with Industry, School and Home.,
- 411744: 1, Website, FIBONACCI, Large scale dissemination of inquiry based science and mathematics education,
- http://www.fibonacci-project.eu/: 411745, 1, Website, Pathway, The Pathway to Inquiry based Science Teaching
- http://pathway.ea.gr/: 411746, 1, Website, SAILS, Strategies for Assessment of Inquiry Learning in Science
- http://sails-project.eu/: 411747, 1, Website, Science on Stage Ireland
- http://www.scienceonstage.ie/resources/: 411748, 1, Curriculum Documentation, Department of Education and Skills, Junior Cycle Science - Curriculum Specification,, http://curriculumonline.ie/Juniorcycle/ Junior-Cycle-Subjects/Science
- 411749: 1, Curriculum Documentation, Department of Education and Skills, Junior Cycle Science Guidelines for the Classroom-Based Assessments and Assessment Tasks, http://curriculumonline.ie/getmedia/02768f26-b9f4-45e7-8e19-f5efdf223d71/Assessment-guidelines,
- 411750: 1, Curriculum Documentation, Department of Education and Skills, Essential: Leaving Certificate Physics Syllabus,, https://www.curriculumonline.ie/getmedia/a789272e-823f-4d40-b095-4ff8f6f195e4/SCSEC27_Physics_syllabus_eng.pdf,
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