Natalie Rowley, School of Chemistry 21 Feb 2013, Lectures without Lecturing workshop Learning Through Enquiry.

Slides:



Advertisements
Similar presentations
CONCEPTUAL WEB-BASED FRAMEWORK IN AN INTERACTIVE VIRTUAL ENVIRONMENT FOR DISTANCE LEARNING Amal Oraifige, Graham Oakes, Anthony Felton, David Heesom, Kevin.
Advertisements

Introducing PBL to a first-year curriculum: results and experiences Frank Forsythe [ project leader ] Malcolm Campbell Paul Keen.
Developing employability skills in science using problem- based learning Derek Raine Director i-Science Centre Sarah Symons Project Manager Project LeAP.
Designing Technology Enhanced Learning activities PGCAPP U6 Workshop 3 Geraldine Jones
Directorate of Human Resources Examples of blended course designs Oxford Centre for Staff and Learning Development
A Masters in Education in eLearning The University of Hull.
Feedback Present, Feedback Futures Dai Hounsell The University of Edinburgh Working with Students to Enhance Feedback The Higher Education Academy, Assessment.
Year Two Year Three Year One Research methods teaching in the social sciences: An integrated approach to inquiry- based learning.
Science Communication Natalie Rowley & John Wilkie, School of Chemistry HEA STEM Conference, 12 April 2012.
Learning Through Enquiry Natalie Rowley, School of Chemistry 14 June 2012, Lectures without Lecturing workshop.
VIDEO ENRICHED VIRTUAL ACTION LEARNING IN TEACHER TRAINING PROGRAMMES.
Feedback sessions - Helping first year students get the most out of assessment and feedback Sue R Whittle & Linda B Bonnett Faculty of Biological Sciences.
Principles of Assessment and Feedback for Learning CHEP Strategic Work-stream Assessment and Feedback for Learning Dr Alan Masson.
Curriculum Development and Course Design
Teaching and Learning Analytics for MOOCS Diana Laurillard London Knowledge Lab Institute of Education.
Enhancing the Student Learning Experience Through Lecture Flipping Jon Green (Biosciences) & Natalie Rowley (Chemistry) HEA STEM 2014.
Being a TAPS student intern at the University of Roehampton Joy Vamvakari & Bridget Middlemas HEA York, November 2013.
Flexible Assessment, Tools and Resources for PLAR Get Ready! Go! Presenter: Deb Blower, PLAR Facilitator Red River College of Applied Arts, Science and.
BLENDED LEARNING An investigation of an ACTIVE learning approach with a focus on…….
In your teaching do you have a method for holding students accountable for preparing for class? A)I don’t, but I ask/threaten really well. B)I use a paper.
Structured Learning Assistance (SLA) and Training for Success Jim Valkenburg Delta College.
INTERACTIVE LEARNING IN THE LECTURE-CLASS SETTING Alan Slavin Department of Physics and Jonathan Swallow (deceased) Instructional Development Centre TRENT.
Authentic Assessment Abdelmoneim A. Hassan. Welcome Authentic Assessment Qatar University Workshop.
Presentation Name December 05 Embedding blended learning into mainstream Higher Education “Developments” Debbie Reynolds Clare Denholm.
School of Biomedical Sciences, The University of Edinburgh Preparing students for University: Recent initiatives in The School of Biomedical Sciences (SBMS)
Chemistry Clips - Multimedia Resources for Supporting Student Learning in Chemistry Dylan P. Williams and David L. Davies Chemistry Clips.
King Saud University College of nursing Master program.
Course Plan and Design Presentation Course: Group Work Bachelor of Occupational Therapy Otago Polytechnic Prepared for ‘Constructing Courses to Enhance.
Ideas for Educational Components of CAREER Proposals Jeffrey Froyd Director of Faculty and Organizational Development Office.
Dr Christine Edmead FHEA  What is flipping?  Why might you want to flip your classroom?  How do we flip the classroom?
Blended Learning A Pilot Project. Presenters Chow Chiu Wai Director, Education Technology and Global Network Lim Jitning Senior Consultant,
Dafna Hardbattle, Ken Fisher & Peter Chalk London Metropolitan University International Blended Learning Conference University of Hertfordshire,
VCE Chemistry Units 3 and –2011 VCAA and CEA Implementation Workshops Term
CPLA Video Case Studies Making Media Nursing. Making Media - Background First year, semester long 20 credit core module Involved 200 students with 4 staff.
Using Problems in Spectroscopy to Develop Enquiring Minds Natalie Rowley, School of Chemistry July 2012, PBL Summer School, Leicester.
Using Second Life to Teach Chemistry Jean-Claude Bradley E-Learning Coordinator College of Arts and Sciences Associate Professor of Chemistry Drexel University.
Quote 1 Reciprocal Teaching “In a classroom using the Reciprocal Teaching approach, a student working in a small group reads aloud a brief passage of text.
Professional Learning Resources Download presentations and resources from today’s sessions!  Go to BISD homepage  Departments  Professional Learning.
How to Write Lesson Plan Using the Cooperative Group Instructional Model.
On Using Camtasia Humanities Teaching and Learning Showcase 2 July 2015 Ralf Becker Economics, School of Social Sciences and Tracy Timperley Faculty of.
Educational Technology Tools that Work Jean-Claude Bradley E-Learning Coordinator College of Arts and Sciences Drexel University March 17, 2008 Albright.
How to Write Lesson Plan Using the Project-Based Instructional Model.
Enhancing the Student Learning Experience Through Lecture Flipping Jon Green (Biosciences) & Natalie Rowley (Chemistry) 21 November 2013 MDS Learning Forum.
Strategies for blended learning in an undergraduate curriculum Benjamin Kehrwald, Massey University College of Education.
1 The Development of Web-based Resources to Support Students Undertaking Problem-based Learning Carolyn Gibbon Project Manager University of Central Lancashire.
Peer-Led Team Learning Workshop Chemistry at UWG “Pilot” project with workshops during Grant and full-fledged program in PLTL Program.
Flipped Fridays Waves of Innovation Large Lecture Engagement Strategies May 5, 2016.
Department of Chemistry. I teach on two very different degree courses: Chemistry – mostly lecture, tutorial and lab based with some C/PBL (≈110 students.
Course Work 2: Critical Reflection GERALDINE DORAN B
Active Learning: Rethinking Our Teaching to Promote Deeper Learning
Stacey S Cofield, PhD Associate Professor, Department of Biostatistics
Transforming Teaching through Technology and Innovation
‘How flipping difficult can it be?’ - an update
FROM BLENDED LEARNING TO BLENDED SURVEYING
Online / Hybrid Workshop: Course Design, Development, and Delivery
Dr Margaret O’Donoghue
Blended Online Instruction
Presented by Dr. Ellen McDonough & Dr. Kathleen Sullivan
Flipping Your Algebra and Statistics Classrooms georgewoodbury
Peer Instruction and Just in Time Teaching Marion Birch & Niels Walet School of Physics and Astronomy.
Introduction to the Course
Incorporating Active Learning in Foundational Courses
Teaching Tools and Learning Platforms for PhD Teaching
Enquiry Based Learning (EBL) and Human Rights
College of the Sequoias Visalia, CA
The use of digital technology to support flexible learning
Bulloch Information Session
Ben Howie & Dr Frances Docherty, university of glasgow
Active Learning Pedagogies to Generate Learning Gain and Confidence Gain in the Classroom Fabio R. Anglia Ruskin University Jan.
This resource has been released by the University of Bath as an Open Educational Resource. The materials are licensed under a Creative Commons Attribution-ShareAlike.
Presentation transcript:

Natalie Rowley, School of Chemistry 21 Feb 2013, Lectures without Lecturing workshop Learning Through Enquiry

Overview Enquiry-Based Learning (EBL) Traditional Approach EBL Approach Assessment and Evaluation Lecture Flipping – Early Findings Useful Resources

Enquiry-Based Learning (EBL) Broad umbrella term for learning approaches driven by a process of enquiry Students are actively involved in the learning process

First Year Spectroscopy

Traditional Teaching Approach 6 x 1 hour lectures (how techniques work and introduction to interpretation of their spectra) 6 x 2 hour workshops in parallel (practice interpreting spectra – whole class, ca. 4 PG demonstrators) Assessed worksheet End of year examination

EBL Approach Groups of ~ 6 students (selected by us) Ice breaker 4 scenarios – online and PG / staff facilitation 4 lectures – explaining how theory underpins interpretation of spectra End of year examination

EBL Ice Breaker General Science quiz Group Rules Establish levels of prior knowledge Action plan for introductory task

Waste Disposal Scenario In role as team of graduate chemists in fictional analytical department Unlabelled chemical waste found in disused laboratories Identify 6 compounds from spectra to enable safe disposal

Down The Drain Scenario Dead fish found in nearby river due to unknown chemical waste Identify 8 compounds from spectra to determine the pollutants

Carbonyl Conundrum Scenario Report discovered containing identity of compounds recently analysed and their spectra, but accidentally mixed up paperwork Assign 24 spectra to 6 compounds

Reaction Dilemma Scenario from fictional PG student (with authentic spectra) Carried out reaction but not sure if obtained correct product … Wrong compound sent by supplier (different groups have different compounds, but all consistent with PG results)

Learning Outcomes By the end of this course students should be able to: –Interpret simple mass, infrared, 13 C and 1 H NMR spectra –Understand how the spectroscopic techniques work –Be independent learners –Work as a team member in a group

Facilitation and Location Ca. 140 students (24 groups) Use 2 adjacent rooms with tables and movable seating 5 PG demonstrators, each assigned 4/5 groups (fixed facilitators) Member of staff is floating facilitator during sessions and online facilitator between sessions (each group has own discussion area in VLE)

Assessment Procedures: 12.5% Continual Assessment: Down the Drain scenario 5% (Group report 4.5%, Group contribution 0.5%) Carbonyl Conundrum 2.5% (Online group assessment) Reaction Dilemma 5% (Group report 4.5%, Group contribution 0.5%)

Evaluation (for pedagogic research) Questionnaires –Likert scale questions –Short answer questions Focus group with undergraduates Interview with PG demonstrator (Exam question results)

Feedback It gives you freedom to think for yourself and gives you the opportunity to find the answers yourself Helped build my confidence when working in groups. Other people help me on things I havent learned before It introduced a new way of attacking problems and learning on job style was nice I like the idea of doing our own research to solve the identity of the compound

LECTURE FLIPPING - EARLY FINDINGS

Lecture Flipping Lecture content delivered pre-lectures usually through screencasts (Camtasia*) Accompanied by short online (WebCT) pre- lecture MCQs to assess knowledge prior to lectures and short answer question for students to identify areas of difficulty (Just- in-Time teaching approach) * Thanks to Simon Lancaster and David Read for helping me to get started using this

Face-to-face time used for focussing on areas which students identified as being difficult Interactive problem solving e.g. clicker questions (TurningPoint) and past paper questions

Feedback Seeing the video before the lecture really helps me to understand the content and allows me to ask any questions during the lecture Really like how we follow the lectures online first and then go over problems in class The pre-lecture videos are really good, and the class tutorials are interactive and a good reinforcement to our learning

Acknowledgements Tim Lucas (Chemistry, Birmingham) Liam Cox (Chemistry, Birmingham) Mike McLinden (Education, Birmingham) Jon Green (Biosciences, Birmingham) Tina Overton (Hull) Norman Reid (Glasgow, Emeritus) Derek Raine and Sarah Symons (Leicester, McMaster) Students at the University of Birmingham University of Birmingham for funding

Further Information on EBL in Presentation Enquiry-based learning: experiences of first year chemistry students learning spectroscopy T. Lucas and N.M. Rowley, Chem. Educ. Res. Pract. 2011, 12,

Further General Information on PBL PossiBiLities: a Practice Guide to Problem based Learning in Physics and Astronomy Derek Raine and Sarah Symons (2005) 080_possibilities_problem_based_learning_in_physics_and_astronomy _mar_2005.pdf

Useful Resources Resources for Context- and Problem-Based Learning in Chemistry resources/context-and-problem-based-learninghttp:// resources/context-and-problem-based-learning Centre for Excellence in Enquiry-Based Learning

Further Information on Lecture Flipping E E Just-in-Time Teaching: Blending Active Learning and Web Technology Gregor Novak, Evelyn Patterson, Andrew Gavrin, and Wolfgang Christian, Prentice–Hall, Upper Saddle River, NJ, 1999

Further Information on Lecture Flipping Peer Instruction: A Users Manual Eric Mazur, Prentice–Hall, Upper Saddle River, NJ, 1997