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Mathematics KS3 Curriculum

Curriculum Intent 

Teaching and Learning in Mathematics

Teaching in the maths department first and foremost reflects the Catholic ethos of the school. We are constantly seeking to improve our practice so that we can make a difference for the young people who will shape the society of the future. We as a maths department have the highest expectations of attainment, progress and behaviour for all our classes.

Our Philosophy

When the new maths curriculum was introduced in 2015, with its triple emphasis on fluency, reasoning and problem solving, there was a need to revisit and introduce a curriculum aiming for ‘mastery’ and ‘depth’. Our curriculum and teaching approach places ‘problem solving’ at the heart of teaching Mathematics and is based on these principles:

  • Conceptual understanding is key. Our lessons focus on small step learning which also encourages deeper understanding. Concepts are not rushed but understood clearly and built upon.
  • Students must be able t use proper mathematical language and terminology as well as speak and write in full sentences.
  • Developing independent thinking skills. We aspire for all our students to be able to work on their concepts actively and independently and not just expect to follow step-by-step procedures and learn passively.
  • Retrieval practice is present in all lessons. As demonstrated in numerous studies, content needs to be continually revisited. Each lesson provides this opportunity and assessments always reflect this too.

Our lessons follow the principles of High-Performance Learning as well as Mastery through the NCETM. We aim to promote deep learning in the department through the use of these techniques. The schemes of work in all year groups are based around these principles. We break questions in lessons down into four areas that relate to the 3 'Assessment Objectives' (AOs) laid out by the department for education.

AO1 – Fluency                AO1 – Application                 AO2 – Reasoning                  AO3 – Problem Solving

Regardless of the current level of performance of the student we believe they have the capability and are given the opportunity to access all levels and types of questions which is our philosophy on differentiation.

How do we set in Maths?

We have entirely non-prior attainment groupings in Maths and this follows the vision of the whole school.    This promotes the principles of High-Performance Learning as all students move through the curriculum together and no matter what their prior attainment the students can see what high level learning looks like in the classroom.   This also feeds into the Diversity and Inclusion work the school has prioritised where no students are denied from learning any concept in the courses based on their class.

How is the Maths department contributing to Extra-Curricular activities in the wider school?
  • We are active in the promotion of STEAM events and trips throughout the year. These encourage our students to look towards career paths in Science, Technology, Engineering, Art and Maths. 
  • High attaining students in Years 7-11 sit the UK Maths Challenge every year and those who excel have the opportunity to progress to more complex and interesting challenges.
  • In Year 11 a weekly revision session is run for students by the teachers of their classes for one hour after school. Each teacher, each week does a different topic and the students select which one they attend based on their own needs.
  • In KS4 a Further Maths club aimed at high attaining students runs weekly where they learn content from the A-Level maths curriculum. This is to encourage a deeper understanding of the simpler topics from GCSE but also give a flavour of what the students are to expect post-16.
  • In KS3 a weekly homework club is run where any student can go along for help and support.
Themes (knowledge & understanding)
 
Skills

Provides a single curriculum map that all learners are expected to follow. This means that all learners have the same access to the curriculum content and there is no ceiling imposed on what learners can achieve.

While there is only one curriculum, we recognise that not all learners come to each lesson at the same starting point. For this reason, we provide additional resources designed to help learners access the main curriculum and teachers adapt lessons to provide scaffolding and depth according to the needs of their learners.

The curriculum is organised to be cumulative. This means that mathematical concepts that are taught earlier in the curriculum are revisited in the context of a new area of mathematics.

This helps learners to make connections between different mathematical concepts. Retrieving, using and applying concepts regularly, transferring to new contexts helps develop fluency as well as conceptual understanding.

Subject content is organised following a sequencing to allow a clear progression through the all maths strands:

  • Number
  • Algebra
  • Ratio, proportion and rates of change
  • Geometry and measures
  • Probability
  • Statistics
 

Our lessons follow the principles of Mastery as described by the NCETM. We aim to promote deep learning in the department through of the use of these techniques. The schemes of work in all year groups are based around these principles. We break questions in lessons down into four areas that relate to the 3 Assessment Objectives (AOs) laid out by the department for education.

AO1 – Fluency                AO1 – Application                

AO2 – Reasoning           AO3 – Problem Solving

Regardless of the current level of performance of the student we believe they have the capability and are given the opportunity to access all levels and types of questions which is our philosophy on differentiation.

At the end of her mathematical education in Sacred Heart, each pupil will be able to:

  • Perform basic numeracy skills
  • Perform the basic mathematical skills needed in her chosen career or for entry to higher or further mathematical education
  • Understand the mathematics likely to be encountered in daily adult life
  • Reason clearly and logically, and to set out a rational argument
  • Identify patterns encountered in diverse situations and to extrapolate from these

to approach problems systematically, choosing appropriate techniques for their solution,

  • Follow logical instructions clearly expressed
  • Experience satisfaction in and enjoyment of her mathematical achievements

In addition, we aim for pupils to acquire the logical abilities characteristic of a mathematician.

Modules Taught

Year 7
 
 

Unit 1 - Number 1
Adding and Subtracting Negative Numbers
Multiplying and Dividing Negative Numbers
All four operations using Negative Numbers
Cube and Cube Roots
Powers >3
Prime Factors
Converting between Standard Form and Ordinary Numbers
Using a Calculator
Using Standard Form with a Calculator

Unit 2 - Algebra 1
Forming Expressions
Substitution with Positive Integers
Substitution with Integers
Substitution of Positive Integers into Formulae
Substitution of Integers into Formulae
Collecting Like Terms
Simplifying Terms using Multiplication and Division
Multiplying and Dividing using Indices
Power of Power and Zero Power Rules
Expanding Single Brackets
Expanding and Simplifying Brackets
Factorising into Single Bracket
Solving One Step Linear Equations with Negatives and Fractions
Solving Two Step Linear Equations
Solving Two Step Linear Equations with Negatives and Fractions

Unit 3 - Number 2
Converting Fractions to Decimals (all methods)
Dividing Fractions
Dividing Mixed Numbers
Reciprocals

Unit 4 - Geometry 1
Isosceles and Equilateral Triangles
Angles in Parallel Lines
Rotational Symmetry
Interior Angles in Polygons
Interior and Exterior Angles in Polygons
Congruent Shapes
Translations
Reflections on Coordinate Grid
Rotations
Enlargements

Unit 5a - Number 3
Multiplying Decimals
Dividing Decimals by Whole Numbers
Estimation
Rounding to Significant Figures
Checking Answers
Converting between Percentages and Decimals

Unit 5b - Ratio and Proportion 1
Percentage Increase/Decrease
Multipliers
Reverse Percentages
Simple Interest
Simplifying More Complex Ratio
Direct Proportion
Sharing in a given Ratio

Unit 7 - Algebra 2
Linear Sequence Rules (with terms arithmetic and linear)
Nth term
Nth term (Patterns)
Rearranging Formulae
Drawing Vertical and Horizontal Lines
Drawing Straight Lines
Gradient
Drawing graphs using Gradient and y-intercept
Identifying Gradient and y-intercept and Parallel Lines
Drawing Quadratic Graphs
Real Life Graphs

Unit 8 - Probability 1
The Probability Scale
Relative Frequency
Single Event Probability
Expectation
Sample Space Diagrams
Frequency Trees
Mutually Exclusive Events
Venn Diagrams

Year 8
   

Unit 9a - Ratio and Proportion 2
Speed/Distance/Time
Scale Drawings
Map Scales

Unit 9b - Geometry 2
Area of Triangles
Area of Parallelograms and Trapeziums
Circumference of a Circle
Perimeter of Semicircles and Quarter-circles
Area of a Circle
Area of Semicircles and Quarter-circles
Surface Area and Volume of Cuboids
Volume and Surface Area of Prisms
Volume and Surface Area of Cylinders
Identifying Similar Shapes

Unit 10 – Statistics
Mean Problem Solving and Choosing Best Average
Stem and Leaf Diagrams
Two-Way Tables
Scatter Graphs (Use from Grade 4-5 Book M10.5 as well)
Misleading Statistics
Median and Mode from Frequency and Grouped Frequency Tables
Mean from Frequency Tables
Mean from Grouped Frequency Tables
Comparing Sets of Listed Data
Comparing Data from Graphs

Unit 11 - Geometry 3
Constructing Triangles using a Ruler and Protractor
Constructing Triangles using a Ruler and Compass
Construct a Net using Ruler and Compass
Drawing 3D Shapes on Isometric Paper
Plans and Elevations
Understanding Bearings
Measuring and Working out Bearings
Problems involving Shapes on Coordinate Grids

Unit 1 - Number 1
Negative Exponents
Calculating with Roots
HCF and LCM from Venn diagrams
Calculating in Standard Form without a Calculator

 

Unit 2 - Algebra 1
Expanding and Simplifying Single Brackets
Finding Simple Formulae
Substituting Numbers into Formulae
Expanding Double Brackets 1
Expanding Double Brackets 2
Expressions, Identities, Formulae, Inequalities and Terms
Solving Equations with Brackets
Solving Equations with Unknowns on Both Sides 1
Solving Equations with Unknowns on Both Sides 2
Forming and Solving Equations 1
Forming and Solving Equations 2
Solving Equations with Fractions
Factorising Quadratics
Difference of 2 Squares

Unit 3 - Number 2
Using Short Division to put Fractions into Decimals
Adding and Subtracting Fractions Review
Multiplying and Dividing Fractions Review

Year 9
   

Unit 4 - Geometry 1
Angle Proof
Angle Proof Advanced
Congruent Triangles
Describing Reflections
Describing Rotations 1
Describing Rotations 2
Describing Enlargements
Mixed Transformations
Column Vectors
Manipulating Vectors 1
Manipulating Vectors 2
Basic Vector Geometry

Unit 5a - Number 3
Dividing by Decimals

Unit 5b - Ratio and Proportion 1
Percentage Change 1
Percentage Change 2
Reverse Percentages 1
Reverse Percentages 2
Compound Interest and Depreciation 1
Compound Interest and Depreciation 2
Sharing in a Ratio
Direct Proportion
Inverse Proportion

Unit 7 - Algebra 2
Nth Term
Types of Sequences
Geometric Progressions
Rearranging Basic Formulae
Rearranging Formulae Powers and Roots
Rearranging Formulae Subject Appears More than Once
Writing Inequalities
Solving Linear Inequalities
Solving Quadratic Equations 1
Solving Quadratic Equations 2
Solving Quadratic Equations Graphically
Turning Points and Intercepts
Cover up Method for Drawing Straight Lines
Simultaneous Equations Graphically
Simultaneous Equations Algebraically 1
Simultaneous Equations Algebraically 2
Simultaneous Equations Worded
Graphs of Cubics and Reciprocals
Rates of Change
Equations of Straight Lines 1
Equations of Straight Lines 2

Unit 8 - Probability 1
Venn Diagrams (Sets of Numbers)
Venn Diagram (3 sets)
Venn Diagrams (Frequencies)
Independent Events
Tree Diagrams (Independent)
Tree Diagrams (Conditional)

Unit 9a - Number 4
Upper and Lower Bounds
Truncation and Bounds

Unit 9b - Geometry 2
Density/Mass/Volume and other compound measures 1
Density/Mass/Volume and other compound measures 2
Arcs of Circles
Area of Sectors
Converting between units of area and volume
Volumes of Spheres, Pyramids and Cones
Surface Area of Spheres, Pyramids and Cones
Similar Shapes 1
Similar Shapes 2

Unit 10 - Statistics 1
Revision of previous Statistics topics

Unit 11 - Geometry 3
Constructions 1
Constructions 2
Loci 1
Loci 2
Plans and Elevations
Pythagoras’ Theorem
Pythagoras’ Theorem Problem Solving
Labelling Sides in Trigonometry
Trigonometry – Finding Sides
Trigonometry – Finding Angles
Exact Values of Trigonometric Functions
Mixed Trigonometry Problems 1
Mixed Trigonometry Problems 2

Assessment

As a department our marking is directly associated with our assessments. We assess once every 2-3 weeks. In Years 7-10, students are given the same assessments so we can compare progress across the year group. When an assessment is returned it is done so with a personalised learning checklist (PLC). This consists of:

  • An individual breakdown of marks by topic. This is linked to a relevant clip on the online learning platforms the students use for homework and revision.
  • Collective feedback. Having marked all the assessments the teacher creates comments that apply to a wide range of students on positives but also misconceptions they had from the assessment.
  • Individual comments are given by the teacher where appropriate and to serve a particular purpose.
  • EBI Questions. The teacher creates and selects for each student a series of questions based on the topics they need work on for that student to complete after having analysed the assessment itself.

Our marking policy also has at its core, staff wellbeing. We aim to produce the highest quality feedback but in an efficient and manageable amount of time.

Stretch & Challenge

High attaining students in Years 7-11 sit the UK Maths Challenge every year and those who excel have the opportunity to progress to more complex and interesting challenges.  In addition, full participation is encouraged for local Masterclasses and other study days of interest.  Schemes of work include investigational work and ICT tasks.

Enrichment Opportunities

We are active in the promotion of STEAM events and trips throughout the year. These encourage our students to look towards career paths in Science, Technology, Engineering, Art and Maths.  In KS3 a weekly homework club is run where any student can go along for help and support.