What do you already know?

Slides:

Advertisements

Similar presentations

Winter 2011 Math News Hello Parents and Teachers, One of the foundations of numeracy is being able to solve simple addition, subtraction, multiplication.

Advertisements

Warm Up 1, __, __, __, __,12 1 x 12 _________ 12 x 1 _________

Progression In Calculations at Lyndhurst First School.

Longfield Primary School

Manley Park Primary School Calculation Policy Handbook

Investigate and use the formulas for area and perimeter of rectangles

Developing Higher Level Thinking and Mathematical Reasoning.

Daily Lessons for Multiplication Unit By: Candice Cannon.

Longfield Primary School Maths Parents’ Workshop

Calculations in Mathematics

Year 2 Maths Parents’ Workshop Canford Heath First School

Operations & Algebraic Thinking Vocabulary add/addition - to put together two or more numbers to find out how many there are all together (+) addend -

Math Module 3 Multi-Digit Multiplication and Division Topic A: Multiplicative Comparison Word Problems Lesson 1: Investigate and use the formulas for.

Creating Mathematical Conversations using Open Questions Marian Small Sydney August, 2015 #LLCAus

summer term mathematics activities for year six

Steph Scott – Maths Leader and Year 2 Teacher.  New curriculum introduced in 2014  2016 first year of new SATs  No more levels  Higher expectations.

Lesson Draw 8 stars in each unit and bracket the total with a question mark. Say the addition sentence. Say the multiplication sentence starting.

Copyright © Cengage Learning. All rights reserved. 1 Whole Numbers.

Comparative Relational Thinking

Engage NY Math Module 7 Lesson 7: Connect area diagrams and the distributive property to partial products of the standard algorithm with renaming.

Mathematical Language

Extending Mathematical Understanding Parent Workshop 7th June 2016 St Brendan’s Catholic Primary School Lake Munmorah.

Third Grade EOG Math Review Goal 1: Numbers and Operations.

Maths Parent Workshop October 2013 Stakesby Community Primary School.

Calculations Policy Addition Objective and Strategies ConcretePictorialAbstract Combining two parts to make a whole: part- whole model Use cubes numicon.

Meltham Moor Maths Curriculum Meeting October 2015 The curriculum, methods and supporting your child.

÷. Written methods of calculations are based on mental strategies. Each of the four operations builds on secure mental skills which provide the foundation.

Downton C of E Primary School Maths Calculation Policy.

CHAPTER 16 Developing Fraction Operations

Singapore Math Approach

Calculation Progressions at St Francis CE Primary

South African Numeracy Chair Project Maths Club Development Programme

Welcome to our Curriculum Workshop

South Molton C of E Primary School

PS/IS 276 Grade 3 Parent Math Workshop

Parents’ Maths Evening

Shears Green Infant School

Link to Math Summit Program

Strong Start Math Project

subtract within 1000 using strategies based on place value

summer term mathematics activities for year six

Year Two’s Maths Inspire Workshop

Year 1 and 2 Coffee Morning Focus: Maths

Calculation Progressions at St Francis CE Primary

Parent/Carer Information Meeting

ADDITION & SUBTRACTION

P1 Information Evening 6 September 2016.

KS 1 Maths: what the children learn and our methods of teaching.

Multiplication Lesson 1.

Teaching Multiplication & Division

KS1 Maths Workshop Steph Scott – Maths Leader and Year 4 Teacher

Fluently Multiply with Products up to 100

Fractions Concept of a fraction Halving Objectives Day 1

Addition & Subtraction Year 1 Statutory Requirements

Teaching Multiplication & Division

Fox Year 3 Summer 1 I know the multiplication and division facts for the 3 and 5 times tables. 3 × 1 = 3 3 × 2 = 6 3 × 3 = 9 3 × 4 = 12 3 × 5 =

Methods we use in Mathematics

Year 4 (National Numeracy Strategy) (Based on DFEE Sample Lessons)

Grade 1 “I Can” Math Statements

Year 4 (National Numeracy Strategy) (Based on DFEE Sample Lessons)

Add and Subtract I can use materials or drawings to show how numbers fit together to 100. I can make organised lists showing the numbers that fit together.

Add and Subtract I can use materials or drawings to show how numbers fit together to 20. I can make organised lists showing the numbers that fit together.

Mental Strategies in Key Stage 1

Teaching Calculations in our School

April 25, 2014 SSOS Central Center of Excellence Team Meeting

Multiplication and Division Revision of 2x, 5x and 10x tables: x and ÷

Addition and Subtraction

Addition and Subtraction Strategies for addition and subtraction

Presentation transcript:

What do you already know? Earlier in May I posted on twitter the idea of building on discussion practices like What do you notice? What do you wonder? And How many? To asking students What do you already know? (that could help you solve this problem). This question shifts the focus from the solution and how you get there, to drawing on and discussion prior knowledge. We often hope students will use prior knowledge to solve new and unfamiliar tasks but they don’t always do this, or they do but don’t know they’ve made a connection. The aim of these problems is to focus on what prior knowledge students are bringing and using to solve the task and what are the key concepts that are being addressed. The answer is not important. I have added some ideas of what students may suggest or concepts they mention in the notes section. Katherin

What do you already know? Students may identify: Estimating – visually estimate at least 50 Partitioning – you can break large collections into smaller parts to add them (in this case by colour) Skip counting – counting in ‘clumps’ or even twos may help Arrays – it is in a row and column structure (two rows, easier to use the right column to estimate how many then double) Benchmarks – I can see about 4 or 5 blues ones, I can use this to work out the other amounts (That could help you work out how many?)

What do you already know? 17 + 13 = 🔲 + 14 Equals means the same as so both sides should equal 20 Twenty can be made up of combinations of 2 numbers Both sides have to equal the same I can see ‘tens’ or combinations of ten inside the numbers that can help me 14 is one more than 14 so the number is box should be one less than 17 (That could help you work out what to put in the box?)

What do you already know? 17 + 13 = 🔲 + 🔲 Equals means the same as so both sides should equal 20 Twenty can be made up of combinations of 2 numbers Both sides have to equal the same I can see ‘tens’ or combinations of ten inside the numbers that can help me There are many of different solutions I could use patterns to help work out some solutions, 1 + 19, then 2 + 18 (That could help you work out what to put in the boxes?)

What do you already know? Image from Ann Downton and Vince Wright’s research paper “A rich assessment task as a window into students’ multiplicative reasoning” (2016) https://files.eric.ed.gov/fulltext/ED572399.pdf The stars are in rows and columns I can break the shape up into smaller shapes like rectangles I can use area to help count some of the stars by multiplying their length and width I can use multiplication to count some of the stars I can use skip counting by rows I will need to use addition and maybe subtraction to work out the total (and take away the part in the middle) (That could help you work out clever ways to count the stars?) Downton & Wright, 2016

What do you already know? 1 20 Inspired by the chat/ post at https://twitter.com/AMSIschools/status/1130327045215383552 I could use what I know about half of 20 I could mark out where all the numbers should go between 1 and 20 Think about what numbers they can’t be Count by ones (skip or jump) Visualise where the other markers go (That could help you work out what what numbers to put in the boxes?)

What do you already know? 30 Inspired by the chat/ post at https://twitter.com/AMSIschools/status/1130327045215383552 I could use what I know about half of 30 I could mark out where all the numbers should go between 1 and 30 Think about what numbers they can’t be Count by ones (skip or jump) Visualise where the other markers go (That could help you work out what what numbers to put in the boxes?)

What do you already know? 10 100 Inspired by the chat/ post at https://twitter.com/AMSIschools/status/1130327045215383552 I could use what I know about half of 100 I could mark out where all the numbers should go between 1 and 100 Think about what numbers they can’t be Count by ones (skip or jump) Visualise where the other markers go (That could help you work out what what numbers to put in the boxes?)

What do you know already? I know how to count by ones I know that the size of the object doesn’t matter when counting I know that I can estimate (more than 10) I could look for pairs, or count by twos (That could help you work out which picture has more strawberries?)

What do you already know? 63 ÷ 3 = Knowledge of dividing by three is the same as making thirds Place Value / Partitioning 63 into 60 and 3 to then get 20 and 1 21 Easier to split the 63 into thirds than to count by 3s (That could help you work out how to solve this question?)

What do you already know? Image from Math Before Bed I can use arrays to work it out I can count by 4s or by 10s I can count by 2s I can estimate or count half then double It’s rectangle, so I can multiple the two side amounts to get the solution It’s like working out area (That could help you work out how many?) https://mathbeforebed.com/2019/02/21/marshmallows/

What do you already know? 16 x 8 = I know I can break (partition) 16 into 10 and 6 I know I can do 16 x 2 (double 16) then double again, then double again I know I can use repeated addition 16 + 16 + … (Note: this is a very inefficient strategy but students may still suggest it) I can use halving and doubling e.g. 32 x 4 it’s easy to use having and doubling when both numbers are even, I could do it twice to get 64 x 2 The answer will be even as both numbers being multiplied are even This is the same as 8 x 16 (commutative property) I could use compensation and do 16 x 10 then take away 32 (That could help you work out how to solve this question?)

What do you already know? 3001 – 2980 = I can use addition to solve subtraction tasks It’s more efficient to count up or count down by ones for this question where the numbers are very close together These numbers are close on a number line I know if I add 20 to 2980 I get to 3000 then it’s just one more 3001 is larger than 2980 The difference will be small as 2900s are close to 3000 I can change the numbers to make the problem easier, I can take 1 off both numbers (the difference will still be the same) e.g. 3000 - 2979 (That could help you work out how to solve this question?)

What do you already know? 25 x 50 = I can solve simpler problems to find the solution e.g. 25 x 5 is 125 then multiple that by ten (increase place value) to get 1250 I can flexibly change the numbers to help with the solution: See the problem as 250 x 5 instead Use doubling (one number) then halving the answer method 25 x 100 then halve the answer Partition 25 into 20 and 5 then solve the problem as 20 x 50 and 5 x 50 Use area model to draw a diagram to help work out the answer (partitioning both numbers into their tens and ones) (That could help you work out how to solve this question?)

What do you already know? Image is of one of the cards in the Tiny Polka Dots game pack https://tinypolkadot.com/ I know numbers patterns on a dice I can see twos and fours They are in a 3 by 3 array (or 3 rows of 3) There are 6 twos There are 3 fours Each column is the same There is a pattern across each row – two, four, two … I can use addition to add the numbers I can use skip counting to count the twos and fours I could add the 3 numbers across the add that twice more (That could help you work out how many?)