500 likes | 1.33k Views
Dimensions of Learning Overview 1: Introduction. What is Dimensions of Learning?. Framework of 5 types of thinking (dimensions of learning) that are essential to successful learning Gathers and organises range of educational research that’s known to work
E N D
What is Dimensions of Learning? • Framework of 5 types of thinking (dimensions of learning) that are essential to successful learning • Gathers and organises range of educational research that’s known to work • Designed to reduce reliance on chalk and talk • Puts student at centre of learning process
Three Minute Pause (Dim 1) Take 3 minutes to stop and think about how you feel about this prospect (learning about Dimensions of Learning) (3min pause a strategy from Dim 1, all about developing positive Attitudes and Perceptions a learner brings to the classroom environment and the task) • I’m not sure I . . . • One thing I hope is . . . • As long as we . . . • I’m expecting . . . • I wonder if . . .
Explicit Teaching • DoL gives teachers bank of strategies that help teachers teach and students learn • Emphasises explicitly teaching these strategies • Students able to select and apply strategies • Students become independent learners
What are the 5 Dimensions? Dictionary Meanings (Dim2) (this is useful to encourage learners to be active participants in the getting of knowledge) • Look up the words in assigned phrase • In pairs discuss what the phrase means at its most complex definition • Peer Teach: work out a way to help the group to learn what it means at the highest level possible (nature of the teaching in your hands) Dimension 1: Attitudes and Perceptions Dimension 2: Acquire and Integrate Knowledge Dimension 3: Extend and Refine Knowledge Dimension4: Use Knowledge Meaningfully Dimension 5: Habits of Mind
Why is the Framework Useful? • Helps us maintain the focus on teaching • Allows us to plan curriculum, instruction and assessment tasks that take the 5 critical aspects of learning into account • Develops a common language that lets us communicate with each other/students across subject divides (helps us talk explicitly about learning) • Helps us study the learning process systematically . . .
How does DoL Define Knowledge? Two Types 1. Declarative Knowledge Content or Information, facts and concepts: things students know or understand, facts and concepts 2. Procedural Knowledge Processes or skills: things students can do
Next 2 Sections of PPT Section 2 • Dimensions 1 and 5 (the background dimensions) • Unit Planning Grid Section 3 • Dimensions 2,3 and 4 (the ‘learning journey’ dimensions) • Planning Grids for Each Dimension • Dimension 3 and an action learning project
Dimension 1: Attitudes and Perceptions • Marzano (1997) (pp 13-42) • Two Areas • 1. Helping Students Develop Positive Attitudes and Perceptions about Classroom Climate • Feel accepted by Teachers and Peers • Experience a Sense of Comfort and Order • 2. Helping Students Develop Positive Attitudes and Perceptions about Classroom Tasks • Perceive Tasks as Valuable and Interesting • Believe they have the Ability and Resources to Complete Tasks • Understand and be Clear about Tasks
Dimension 1: Rotating Papers Work in 4 groups on one sheet at a time • Feel accepted by teachers and peers • Experience a sense of comfort and order • Develop positive attitudes about classroom tasks • Believe they have the ability and resources to complete tasks • Brainstorm activities that would work towards achieving the aim: use info from the text and your own experience (5 min) • Each new sheet: read responses and add your thoughts (2 min)
Dimension 5: Habits of Mind Three Areas Marzano (1997) pp 261-297 Critical Thinking • Accuracy • Clarity • Open mindedness • Restraining impulsivity • Taking a position when warranted • Responding appropriately to others Creative Thinking • Perseverance • Pushing the limits of knowledge and abilities • Developing own standards of evaluation • Developing unconventional ways of viewing a situation Self-Regulated Thinking • Monitoring own thinking • Plan appropriately • Identify and use necessary resources • Respond appropriately to feedback • Evaluate effectiveness of your actions
Dimension 5: Pair Work • Identify a behaviour in class that stops some/all students learning effectively. Discuss the behaviour with partner. Listen carefully to each other. • Match blocking behaviours to the corresponding habit(s)s of mind in the text • Think of a story/film character who displays one of the habits you want to see developed by the class • Build bones of a unit of work based on that character and their demonstration of the habit of mind you want to develop
Three Minute Pause (Dim 1) Take 3 minutes to stop and think about what you’ve learnt about Dimensions 1 and 5 • I enjoyed . . . • I was surprised by . . . • I was challenged . . . • I’m not sure I . . . • One thing I learnt . . .
Dimension 2: Acquire and Integrate Knowledge Examples • Add and subtract • Write a paragraph • An amoeba • The conventions of punctuation • When oppression meets resistance, conflict results • Set up an experiment • Read music • The rules of basketball • Shoot free throws • A numerator • Democracy Declarative Knowledge Content or information, facts and concepts: things students know or understand Procedural Knowledge Processes or skills: things students can do What is the major difference in how we learn a concept and a skill?
TASKS: Understanding the different knowledge types influences how teachers identify knowledge when planning for lessons and units (what do students already know, what do they need to know, what will they know by the end of the lesson/unit) • Task1: Which of the examples are declarative, which are procedural knowledge? (classifying task, Dim 3) • Task2: Using one example of each or of your own, in a pair, think about how we teach declarative and procedural knowledge differently . . . (comparing task, Dim 3) (circles rather than steps) • Task 3: Think of an average lesson/unit of work and work out which parts of it involve the learning of procedural knowledge and which the learning of declarative knowledge . . . What different types of learning tasks do you use for each (Deductive reasoning, Dim 3)
Students learn different knowledge differently Procedural Knowledge: skills and processes Declarative Knowledge: content and information Construct Model Shape Internalize
Each method has three stages, which are roughly parallel to each other, but the relationships between the phases is different (CIRCLES RATHER THAN STEPS) So teachers need to select different types of instructional strategies for the different knowledge types too. Declarative Knowledge: • 1: Construct Meaning: by linking it to prior knowledge (e.g. 3 min pause, KWL (know, want, learned), BDA strategy, inquiry strategies etc) • 2: Organise Knowledge: graphic organisers (cause/effect, principle/example, concept patterns etc), advance organiser questions etc, note-taking frameworks • 3: Store: symbols and substitutes, link strategies etc Procedural: • Construct Model: think-aloud, written/graphic representation of skill/process, link to other skills • Shape Knowledge: practising/modifying model, avoiding common errors • Internalise: as a result of practice: set up practice schedule, chart progress
How Does DoL Help here? • articulates the difference between the types of knowledge, how they relate to each other • defines different types of declarative knowledge (descriptions, sequences, processes, episodes, principles, concepts) and distinguishes between macro and microprocesses (skills) • For each of the three processes involved in acquiring and integrating knowledge (declarative and procedural), DoL offers a collection of strategies teachers can select from and a suggested series of steps
Dimension 3: extend and refine knowledge Marzano (1997) p 113-184 This occurs as learners examine and analyse knowledge and information in a way that: • helps them make new connections • discover or rediscover meanings • gain new insights • clarify misconceptions Results in learners being able to do more than recite definitions and give other examples. Involves them thinking about the information by using reasoning process that are more complex than those used to recognise or reproduce knowledge. These processes CHANGE the knowledge they have.
Dimension 3:Extend and Refine knowledge Comparing . Inductive Reasoning Classifying Eight Complex Reasoning Processes Abstracting Deductive Reasoning Constructing support Analysing Errors Analysing Perspectives
THINK PAIR SHARE Many of these processes we scaffold for the students as part of our normal lessons . . . TASK: think pair share two examples of when we have used one or more of these processes in scaffolding our lessons. (have a look at the next slide if you need a brief summary of what each process involves)
The 8 Complex reasoning processes described • Comparing: Indentifying and articulating similarities and differences among items • Classifying: grouping things into definable categories on the basis of their attributes • Abstracting: Identifying and articulating the underlying theme or general pattern of information • Inductive Reasoning: inferring unknown generalisations or principles from information or observations • Deductive Reasoning: Using generalistions and principles to infer unstated conclusions about specific information or situations • Constructing Support: building systems of support for assertions • Analysing Errors: identifying and articulating errors in thinking • Analysing Perspectives: identifying multiple perspectives on an issues and examining the reasons or logic behind each.
EXPLICITLY TEACH THE PROCESSES As well as getting students to use these processes through the scaffolding of assessment tasks and learning activities, we also need to directly teach these processes to the students, so they can select and use them independently. Each of the processes is used unconsciously every day, but to use this as a way of refining and extending knowledge, we need to teach the STEPS involved, so students use them DELIBERATELY and RIGOROUSLY.
Each of the eight processes is taught in the same way: • 1. Help students understand the process: (the function/goal of it) • 2. Give students a model for the process, and create opportunities for them to practice using the process. (the steps involved and examples) • 3. As students study and use the process, help them focus on critical steps and difficult aspects of the process (examples and suggestions of how to deal with elements) • 4. Provide students with graphic organisers or representations of the model to help them understand and use the process • 5. Use teacher-structured and student-structured tasks (modeling to independent work)
CAN USE DIM 3 to address a particular issue 1. Identify the Issue: e.g. How can we improve students’ critical literacy skills in English, specifically their ability to analyse a writer’s use of linguistic and visual techniques to achieve their purpose and appeal to their audience. 2. Plan the DoL Project: • major issue for students as being the gap between their declarative knowledge of the techniques writers use and their procedural ability to analyse how a particular writer uses these techniques for specific effects. • In DoL terms: Able to gain and integrate the knowledge of techniques (they can explain their purposes and give examples) – Dimension 2 Cannot use this knowledge meaningfully in new situations – Dimension 4. In order to do this, we need to focus on Dimension 3, helping them to extend and refine their knowledge.
Dimension 4: use knowledge meaningfully Marzano (1997) p 189-254 Using knowledge requires more complex reasoning processes than required by Dimension 2 of learning (recall, reproduce knowledge) DoL’s identified 6 complex reasoning processes that can be applied to help them use knowledge meaningfully . . .
D4: 6 reasoning processes • Decision Making: generating and applying criteria to select from among seemingly equal alternative • Problem Solving: overcoming constraints or limiting conditions that are in the way of pursuing goals • Invention: developing unique products or processes that fulfil perceived needs • Experimental Inquiry: generating and testing explanations of observed phenomena • Investigation: identifying and resolving issues about which there are confusions or contradictions • Systems Analysis: analysing the parts of a system and the manner in which they interact
FIVE STEPS TO TEACH THEM . . . . . . so that students can learn how to do it themselves . . . (same steps as for Dim 3) 1. Help them understand process 2. Give them a model for it 3. As they practice, help them focus on critical steps 4. Provide them with graphic organisers to help them use the process 5.Use teacher-structured tasks leading to student-structured tasks.