Year 1– Spring Block 1- Week 4 – Addition & Subtraction Differentiated Worksheets within 20 -White Rose Style
L16- Related Facts- Tens Frames
L17- Related Facts- Part Whole Model
L18- Related Facts- Bar Model
L19- Compare Number Facts- Tens Frames
L20- Compare Number Facts- Abstract
Year 2 - Editable Multiplication and Division Fluency Teaching Slides - White Rose Style
PDF version can be found in our Facebook Group for free –
https://www.facebook.com/groups/150720402286367/files/
Year 2 - Editable Statistics Fluency & Reasoning Teaching Slides - White Rose Style
National Curriculum Objectives Covered:
Interpret and construct simple pictograms, tally charts, block diagrams and simple tables.
Ask and answer simple questions by counting the number of objects in each category and sorting the categories by quantity.
Ask and answer questions about totalling and comparing categorical data.
Year 3 - Editable Money Fluency & Reasoning Teaching Slides - White Rose Style
NC Objectives Covered:
Add and subtract amounts of money to give change, using both £ and p in practical contexts.
Year 3 - Editable Statistics Fluency & Reasoning Slides - White Rose Style
NC Objectives Covered:
Interpret and present data using bar charts, pictograms and tables.
Solve one-step and two-step questions [for example, ‘How many more?’ and ‘How many fewer?’] using information presented in scaled bar charts and pictograms
Year 4 - Editable Multiplication and Division Spring Teaching Slides - White Rose Stlye
Covers the objectives:
Recall and use multiplication and division facts for multiplication tables up to 12 × 12.
Use place value, known and derived facts to multiply and divide mentally, including: multiplying by 0 and 1; dividing by 1; multiplying together three numbers.
Recognise and use factor pairs and commutativity in mental calculations.
Multiply two digit and three digit numbers by a one digit number using formal written layout.
Solve problems involving multiplying and adding, including using the distributive law to multiply two digit numbers by one digit, integer scaling problems and harder correspondence problems such as n objects are connected to m objects.