The six-year Mathematics programme aims to:
- equip students with the necessary knowledge, skills and processes for the continual learning of Mathematics
- provide students with meaningful and engaging situations to enhance their learning experiences
- develop positive attitudes such as confidence and perseverance
- motivate students to be independent learners
Department Key Programmes
• P3 to P6 Math Olympiad Programme
High progressive students to be exposed to challenging math problems to sharpen their logical and analytical skills in problem solving.
• P1 to P6 Parents’ Workshop
Parents are invited to attend the following workshops. Teachers share strategies or approaches with parents to enhance students’ learning through home support.
- Lower Primary Model Drawing
- Upper Primary Model Drawing
- Enhancing of visualization skills through the 5R approach
• P1 to P4 Mathematics Championship
To develop students’ speed and accuracy for factual fluency in basic computation skills. All students will go through a selection round in class. The top three finalists will represent the class for the final showdown held in the presence of the students in the level.
P1 - Number Bonds and P2 – P4 Multiplication Tables
• P1 to P5 Heuristic Package
The heuristic package aims to explicitly teach various skills. For every skill taught, the students will be given an example on how the skills can be applied. This is followed by two questions for students to work on independently.
• P1 to P6 ICT Mathematics
Leveraging on ICT, students learn to collect and represent data using picture graphs, bar graphs, line graphs and pie charts. Students use ICT tools such as spreadsheets to generate statistical diagrams to represent the data.
• Pedagogical Approach (to learn concepts)
Concrete: Use of manipulatives to introduce and teach new concepts
Pictorial : Translate concrete teaching to pictorial representations (pictographic or iconic drawing) E.g. Drawing of cakes in trays or model drawing
Abstract: Progression from pictorial representations to writing equations and solving them
• Pedagogical Approach (to solve word problems)
George Polya’s 4 stages of problem solving
1. Understand the problem – to process information
2. Devise a Plan
3. Execute the Plan
4. Check-Look Back
• Pedagogical Approach (to process information)
The 3 ‘I’ Strategy
Identify – Underline, circle or highlight key information
Interpret – Draw arrows or lines to show the relationship or linkages in the information
Infer – Write down missing or hidden information
(Strategies or approaches to solve Higher-order thinking questions)
• 5 R approach
(to solve spatial visualization questions E.g. Geometry or model drawings)
To manipulate diagrams by asking the following:
- What can I Remove / Repeat / Replace /Rearrange / Re-orientate to simplify the diagram?