The importance of qualified teachers

Date: 21st November 2013
Author: Dr Joanna Goodman
Theme: Education Policy, Leadership, NQTs, Teacher
Tags: Editorial, QTS

Even the government is divided over whether unqualified individuals should be allowed to teach in state-funded schools. Dr Joanna Goodman considers the debate. 

Debating the issue of the necessity for teaching qualifications for individuals employed by schools as teachers, the government views are divided, with Mr Gove advocating that academies and free schools may draw on the subject knowledge and passion of people without formal teaching qualifications, while Mr Clegg is of the opinion that schools should employ only qualified teachers to ensure “basic quality standard”.

Educationalists believe that standards are threatened by the absence of a national policy for trained and qualified teachers and trainers.

However, Mr Gove’s department disagrees, stating that state maintained schools should be able to “hire brilliant teachers who have not got qualifiedteacher status – and have the same advantage that private schools have to bring in great linguists, computer scientists, engineers and other specialists to inspire their pupils”.

Dr Seldon, head of Wellington College, compares teaching to parenting, where qualifications are not needed, and believes that Mr Clegg and others, who argue for teachers to be qualified, are misguided regarding the teacher’s role who, he says, is “much more akin to that of a parent (...) yet no one is suggesting parents go off for a university course to qualify as a parent”.

Although in his recent speech he made reference to teaching as a profession (strange analogy to parenting here) and acknowledged it as a reflective practice highlighting passion, intellect, love of subject and children as required qualities, his focus on teaching also fails to recognise that the aim of teaching is to enable learning, hence, I assume no references to pedagogy or necessity for teacher training.

Arguably, subject expertise and passion are teachers’ great qualities, however, for effective, by which I mean active, self-regulated and autonomous learning to occur, the focus of this debate needs to shift from the teacher to the learner. In this whole debate on qualified/unqualified teachers, we seem to have lost sight of what teaching and learning are all about.

Learning is complex and, although some students can be naturally attuned to meta-cognition, this is not the case with the majority of learners who need to be taught how to engage actively with the learning material, where knowledge acquisition is right at the bottom of the learning taxonomy.  

Therefore “good teachers”, to be effective in class, need much more than subject expertise and intellect. Great teachers are able to facilitate learning through the use of formative strategies in class and know when to step back, to allow for pupils’ reasoning, application and self-discovered, independent learning to occur.

In order to have a better understanding of principles which encourage children to learn and why some children are more successful than others, extensive studies into the psychology of learning focused on motivation and, in particular, on the association between motivation and learning outcomes have come to the fore (Boekaerts, 2002; Dweck, 1986), and it is relevant, when discussing classroom learning, to explore some theoretical aspects of learning which scaffold classroom interaction.

Learning is one of those terms about which many assumptions are made, but around which there is a silence in terms of assertions because it is complex and specific to different learners, and no single strategy works for all (Schunk and Zimmerman, 1998).

According to Hirst and Peters (1989), “educating people is not done by instant fiat. It takes time, and a variety of different processes of learning and teaching are involved”. 

Drawing on a range of European studies, including her own research in the Netherlands over the last 20 years, Boekaerts (1995) concluded that motivation, an essential element of successful learning, conceptualized in her research as specific self-regulatory skill, was necessary for learners to experience success in educational outcomes.

Since learning is not just limited to knowledge acquisition, for effective learning to occur, learners need to be equipped with appropriate skills, which means they need to know how to learn in order to be fully successful.

These skills are developed through classroom interactions and classroom dialogue by trained professionals whose aim is not just to impart or introduce knowledge, or new material, but to ensure that learning at a deeper level takes place and progress is made by individual students.

To assert, that this can be done by any unqualified individual with subject expertise, or indeed to liken it to parenting, is, frankly, both insulting and ridiculous.

Although I agree that not all qualified teachers are excellent and some industry experts can make excellent teachers, the training, including NQTs’ induction process, provide common ground for development and reflection, giving teaching a professional framework. 

Likewise, references to independent schools having the opportunities to employ unqualified teachers are hardly appropriate. First, the vast majority of independent school teachers have qualified teacher status. I have been recruiting teachers to independent schools for many years and it has never been a consideration to recruit an unqualified teacher.

Second, even if the private sector has the ability to employ unqualified academic staff, independent schools, and not all of them are beacons of excellence, work under different conditions to maintained schools, and what may be appropriate in some independent schools, would not necessarily be appropriate in state-funded schools where about 93 per cent of pupils are being educated.

In my view, the debate should focus more on learning, rather than on teaching. It is more about developing pupils as independent, sustainable learners – skills which are key to future success in the digital age, where students need to be prepared for life-long learning and multiple career changes. 

To assert, that this job can be done by unqualified individuals, however charismatic and knowledgeable, is to deny students opportunities that they deserve.

Teacher effect on learning is huge, just look at Professor John Hattie’s work on effect sizes in his paper Influences on Student Learning (Hattie, 1999). See below for more.

Students have only one chance of every year in education and their learning should be guided by qualified teachers who are committed to life-long learning themselves.

• Dr Joanna Goodman has a doctorate in education from King’s College London. She is an educationalist with curriculum expertise, assessment in particular, and leadershipdevelopment. She is an experienced senior school leader, a school inspector and director of Cromwell Consulting.

  
  

Professor John Hattie’s table of effect sizes

 

In his paper Influences on Student Learning, Prof Hattie, Professor of Education at Auckland University, New Zealand, says that “effect sizes” are the best way of answering the question of what has the greatest influence on student learning. The effect sizes in his table are averaged from 180,000 research studies and form a credible guide for what has the greatest influence on student achievement. An effect-size of 1.0 is typically associated with advancing learners’ achievement by one year, or improving the rate of learning by 50 per cent or a two-grade leap in GCSE. An effect size of 0.5 is equivalent to a one-grade leap at GCSE. The list below shows Influence–Effect Size–Source of Influence:

• Feedback–1.13–Teacher 
• Student’s prior cognitive ability–1.04–Student 
• Instructional quality–1.00–Teacher 
• Direct instruction–0.82–Teacher 
• Acceleration–0.72–Student
• Remediation/feedback–0.65–Teacher 
• Student’s disposition to learn–0.61–Student 
• Class environment–0.56–Teacher 
• Challenge of Goals–0.52–Teacher 
• Peer tutoring–0.50–Teacher 
• Mastery learning–0.50–Teacher 
• Homework–0.43–Teacher 
• Teacher Style–0.42–Teacher 
• Questioning–0.41–Teacher 
• Peer effects–0.38–Peers 
• Advance organisers–0.37–Teacher 
• Simulation & games–0.34–Teacher 
• Computer-assisted instruction–0.31–Teacher 
• Testing–0.30–Teacher 
• Instructional media–0.30–Teacher 
• Affective attributes of students–0.24–Student 
• Physical attributes of students–0.21-Student 
• Programmed instruction–0.18–Teacher 
• Audio-visual aids–0.16–Teacher 
• Individualisation–0.14–Teacher 
• Finances/money–0.12–School
• Behavioural objectives–0.12–Teacher 
• Team teaching–0.06–Teacher 
• Physical attributes (eg class size)–0.05–School

 

Further information

• For more discussion of Prof Hattie’s effect sizes, visithttp://geoffpetty.com/for-team-leaders/research-and-links/
• To download Prof Hattie’s original paper, visitwww.education.auckland.ac.nz/uoa/home/about/staff/j.hattie/hattie-papers-download/influences/ 

References

• Boekaerts, M. (1995). Motivation in Education. The British Psychological Society.
• Boekaerts. M. (2002). Motivation to Learn. Educational Practices – 10.  InternationalAcademy of Education.  UNESCO booklet.
• Dweck, C. (1986). Motivational process affecting learning. American Psychologist. 41(10): 1040-48.
• Hirst, P. H. and Peters, R.S. (1989). The Logic of Education. London: Routledge.
• Schunk, D. and Zimmerman, B.J. (1998). Self-Regulated Learning: From Teaching to Self-Reflective Practice. Guildford: Guildford Press.

Tips for project-based learning

Date: 21st November 2013
Author: Earnie Kramer
Theme: Curriculum, Leadership, Resources and Projects, Teacher
Tags: Project-based learning

Project-based learning has the potential to teach key skills and knowledge in a more engaging and real-world way. Earnie Kramer looks at the pros and cons and offers some advice.

Built on the principle that students learn better when taught through real-world problem-solving, project-based learning is a classroom model that emphasises enquiry-based, hands-on lessons that are student-directed.

Project-based learning, or PBL, somewhat abandons the traditionalcurriculum in that students are not required to learn specific facts on specific days. Rather, students are presented with a project (often working in groups) and are tasked with using their knowledge and lessons to solve problems and complete that project.

Benefits of project-based learning

Project-based learning gives schools the ability to:

• Increase application and retention of information.
• Encourage critical-thinking skills.
• Foster communication and collaboration.
• Boost high-stakes test scores.
• Increase student motivation and engagement.
• Teach real-world problem-solving.
• Improve academic achievement.
• Positively affect students’ attitudes toward learning.
• Prepare learners for higher education.
• Integrate knowing and doing.
• Allow students to be mobile by offering them opportunities to learn in places besides the classroom or at home.
• Show students that learning can take place anywhere, anytime.
• Help students to become lifelong learners by requiring them to apply the knowledge they have learned to everyday or real-life problems.
• Teach students that it is not enough to know information, but rather being able to use the information they have in a meaningful and productive way.
• Create a learning atmosphere in which teachers coach student thinking and guide student review, allowing deeper levels of understanding.
• Engage students as participants in a problem situation.
• Organise lectures around a given holistic problem, enabling student learning in relevant and connected ways

Challenges of project-based learning

Some of the barriers to overcome when implementing project-based learninginclude the following:

• Training teachers on how to implement PBL in the classroom and maintaining teacher energy levels from project to project.
• Designing projects that both inspire and instruct students on common core standards.
• Rethinking the old pedagogy of separating subjects so that skills are learned and honed holistically.
• Finding classroom time to enthusiastically implement project-based learning amid test preparation and common core standards goals. 
• It requires more time and takes away study time from other subjects.
• It can sometimes be difficult for teachers who already have a way of doing things.
• Being fair in assessment.
• Building suitable project-based learning facilities in schools.
• It might be challenging to implement project-based learning in some subjects – for example, subjects such as mathematics which is primarily skills-based at basic level.

Top tips for project-based learning

Give students a realistic problem or project. This achieves student buy-in and gets them excited about their project. If they can imagine encountering the problem that you have presented, they will be more interested in solving the problem. 

Make group work structured. Group students in sets of three to four with diversified skill levels so that each student has a defined role. 

Give multi-faceted assessments. Schedule multiple opportunities for students to revise their work and receive feedback through benchmarks, peer-grading, etc, so that work is monitored at several points throughout the project. Create benchmarks that focus on different aspects of the project so that students’ different roles are all highlighted.  

Participate in a professional network to support your efforts. Project-based learning does not just encourage collaboration among students, teachers and administrators can benefit as well. Constructive projects can take time to outline and create. Use the work and progress of your peers by using their successful assignments in your classroom. 

What teachers have told us

Teacher Steve Webb is clear on the benefits of project-based learning: “Usingproject-based learning allows me to focus teaching on a couple of really important skills for students’ development, such as leadership skills, collaborating productively, critical-thinking, communicating powerfully and completing projects effectively. This allows students to develop the life-skills that they need to be successful when moving on to university or the workplace.”

Fellow teacher Emma Jacobs adds: “Although it can be a challenging process, my students engage in learning more than ever and it is all down to better collaboration in classroom using project-based learning.”

A set of top Computer Science Education blogs

Computing: The Science of Nearly Everything

Computer Science…Research, Education and Policy

A set of top Computer Science Education blogs

with 3 comments

Further to my most-read blog post (from May 2012: A set of top Computer Science blogs, 80,000 hits and counting), here’s a follow-up: blogs on computer science education.

As before, instead of a list, it more closely resembles a set: the order is irrelevant and there are no duplicate elements; membership of this set of blogs satisfies all of the following conditions:

1. they focus on computer science education (research, policy and practice);
2. they are of consistently high quality;
3. I regularly read them.

• Computing Education Blog by Mark Guzdial (@guzdial)
  Mark is a professor in the School of Interactive Computing at Georgia Institute of Technology and a researcher in computing education. His blog is about how people come to understanding computing, and how to facilitate that understanding, cross-cutting research, policy, practice and wider societal issues. And while it is US-focused (as you would expect), it is an excellent venue for the discussion of key topics in computer science education.
• Teach Computing by Alan O’Donohoe (@teknoteacher)
  Alan is a busy chap: as well as being principal teacher of Computing at Our Lady’s High School in Preston, he’s the founder of both Hack To The Future and Raspberry Jam, the global community of events for everyone to discover the wonders of the Raspberry Pi. His blog tracks his five-year computing journey: from improving classroom practice (listen to his Teach Computing podcasts), contributing back to the community as a CAS Master Teacher, to shaping the development of a new curriculum subject in England.
• Miss Philbin’s Teaching and Learning Journal by Carrie Anne Philbin (@MissPhilbin)
  Carrie Anne is an award-winning secondary teacher at Robert Clack School in Essex and a passionate advocate for women in technology. She is the creator of Geek Gurl Diaries, a YouTube web series for teenagers who want to be makers and creators of technology (which recently won a Talk Talk Digital Hero Award) and vice-chair of the CAS initiative #include to address diversity issues in computing. Her blog also covers the gamut of classroom practice, the transition from ICT to computing, supporting the wider community, to shaping policy in England.
• Academic Computing by Neil Brown (@twistedsq)
  Neil is a research associate in the Programming Languages and Systems Group at the University of Kent, working on the BlueJ and Greenfoot projects. He writes thought-provoking pieces on topics spanning computing (and more broadly, STEM) education, programming and socio-technical issues. He also has a second blog on learning and applying mathematics through computing: The Sinepost.
• An Open Mind by Miles Berry (@mberry)
  Miles is a principal lecturer and the subject leader for Computing Education at the University of Roehampton. He sits on the boards of both CAS and Naace, with wide experience of curriculum development in the UK. His blog, a personal perspective on education, technology and culture, covers a range of interesting pieces on computer science and programming pedagogy, CPD and agile practice.
• Computer Science Teacher by Alfred Thompson (@alfredtwo)
  Alfred is a high school computer science teacher in New Hampshire, having previously been the K-12 Computer Science Academic Relations Manager for Microsoft and a software developer for 18 years. He currently sits on the board of the Computer Science Teachers Association. His blog covers a wide range of topics, including computer science and programming pedagogy, curriculum development and US education policy.
• Knowing and Doing: reflections of an academic and computer scientist by Eugene Wallingford(@wallingf)
  Eugene is an associate professor and head of the Department of Computer Science at the University of Northern Iowa. He has been blogging since 2004 on topics across computing, software development, higher education, learning and teaching, as well as managing and leading.
• Raspberry Pi Blog by the Raspberry Pi Foundation (@Raspberry_Pi)
  These guys need no introduction, especially after the two millionth Raspberry Pi was sold in October! With the huge success and penetration of the Raspberry Pi over the past two years, the platform now exists for the Foundation to fulfil its wider educational objectives. A diverse blog, ranging from technical posts, peripherals and resources, to superb examples of innovative uses of the Raspberry Pi.
• CSTA Blog by the Computer Science Teachers Association (@csteachersa)
  The Computer Science Teachers Association is a membership organisation (free to join), supported by the ACM, that promotes and supports the teaching of computer science and other computing disciplines in the US, providing opportunities for K–12 teachers and students to better understand the computing disciplines and to more successfully prepare themselves to teach and learn. Its blog covers a wide range of topics across computer science education, programming, curriculum design and education policy,
• CAS Online by Computing At School (@CompAtSch)
  Computing At School is a membership organisation (also free to join), supported by the BCS, that promotes and supports the teaching of computer science in UK schools. Formed in 2008, it now has over 7000 members from across schools, colleges, universities, industry and government and is the subject association for computer science. Along with numerous high-quality articles in the quarterly CAS newsletter, Switched On, CAS Online provides the UK computer science education community with a wide range of forums, events, policy discussions, consultations and a veritable wealth of resources to support learning and teaching.

This set is most definitely incomplete — please post your computer science education blog recommendations in the comments below. You can also read some of my posts on computer science education.