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PD2: Learning from mistakes and misconceptions

This session aims to reflect on learners' errors, discuss causes, and use misconceptions constructively for learning enhancement. It includes examples of mistakes in fractions, decimals, algebra, and geometry, exploring reasons behind the errors. By analyzing generalizations made by learners and specific examples, educators can address misconceptions effectively. The session discusses various ways to manage mistakes and guide learners towards deeper understanding.

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PD2: Learning from mistakes and misconceptions

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  1. PD2: Learning from mistakes and misconceptions

  2. Aims of the session This session is intended to help us to: • reflect on the nature and causes of learners’ mistakes and misconceptions; • consider ways in which we might use these mistakes and misconceptions constructively to promote learning.

  3. Assessing learners’ responses • Look at the (genuine) examples of learners' work. • Use the grid sheet to write a few lines summarising: • the nature of the errors that have been made by each learner; • the thinking that may have led to these errors. • Discuss your ideas with the whole group.

  4. Saira: Fractions and decimals

  5. Saira: Fractions and decimals

  6. Saira: Fractions and decimals

  7. Saira: Fractions and decimals • Confuses decimal and fraction notation.(0.25 = ) • Believes that numbers with more decimal places are smaller in value.(0.625 < 0.5). • Sees as involving the cutting of a cake into 8 parts but ignores the value of the numerator when comparing fractions.

  8. Damien: Multiplication and division

  9. Damien: Multiplication and division

  10. Damien: Multiplication and division

  11. Damien: Multiplication and division • Believes that one must always divide the larger number by the smaller (4 ÷ 20 = 5). • Appears to think that: • division 'makes numbers smaller’; • division of a number by a small quantity reduces that number by a small quantity.

  12. Julia: Perimeter and area

  13. Julia: Perimeter and area

  14. Julia: Perimeter and area

  15. Julia: Perimeter and area • Has difficulty explaining the concept of volume, which she describes as the 'whole shape.' • Believes that perimeter is conserved when a shape is cut up and reassembled. • Believes that there is a relationship between the area and perimeter of a shape.

  16. Jasbinder: Algebraic notation

  17. Jasbinder: Algebraic notation

  18. Jasbinder: Algebraic notation

  19. Jasbinder: Algebraic notation • Does not recognise that letters represent variables. Particular values are always substituted. • Shows reluctance to leave operations in answers. • Does not recognise precedence of operations: multiplication precedes addition; squaring precedes multiplication. • Interprets '=' as 'makes’ ie a signal to evaluate what has gone before.

  20. Why do learners make mistakes? • Lapses in concentration. • Hasty reasoning. • Memory overload. • Not noticing important features of a problem. or…through misconceptions based on: • alternative ways of reasoning; • local generalisations from early experience.

  21. Generalisations made by learners • 0.567 > 0.85The more digits, the larger the value. • 3÷6 = 2Always divide the larger number by the smaller. • 0.4 > 0.62The fewer the number of digits after the decimal point, the larger the value. It's like fractions. • 5.62 x 0.65 > 5.62Multiplication always makes numbers bigger.

  22. Generalisations made by learners • 1 litre costs £2.60; 4.2 litres cost £2.60 x 4.2;0.22 litres cost £2.60 ÷ 0.22. If you change the numbers, you change the operation. • Area of rectangle ≠ area of triangleIf you dissect a shape and rearrange the pieces, you change the area.

  23. Generalisations made by learners • If x + 4 < 10, then x = 5.Letters represent particular numbers. • 3 + 4 = 7 + 2 = 9 + 5 = 14.‘Equals' means 'makes'. • In three rolls of a die, it is harder to get 6, 6, 6 than 2, 4, 6.Special outcomes are less likely than more representative outcomes.

  24. Some more limited generalisations • What other generalisations are only true in limited contexts? • In what contexts do the following generalisations work? • If I subtract something from 12, the answer will be smaller than 12. • The square root of a number is smaller than the number. • All numbers can be written as proper or improper fractions. • The order in which you multiply does not matter. • You can differentiate any function. • You can integrate any function.

  25. What do we do with mistakes and misconceptions? • Avoid them whenever possible? "If I warn learners about the misconceptions as I teach, they are less likely to happen. Prevention is better than cure.” • Use them as learning opportunities?"I actively encourage learners to make mistakes and to learn from them.”

  26. Some principles to consider • Encourage learners to explore misconceptions through discussion. • Focus discussion on known difficulties and challenging questions. • Encourage a variety of viewpoints and interpretations to emerge. • Ask questions that create a tension or ‘cognitive conflict' that needs to be resolved. • Provide meaningful feedback. • Provide opportunities for developing new ideas and concepts, and for consolidation.

  27. Look at a session from the pack • What major mathematical concepts are involved in the activity? • What common mistakes and misconceptions will be revealed by the activity? • How does the activity: • encourage a variety of viewpoints and interpretations to emerge? • create tensions or 'conflicts' that need to be resolved? • provide meaningful feedback? • provide opportunities for developing new ideas?

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