°µÍø51

1. Problem solving processes and strategies 

• Polya’s four-step method
• tables and pictures
• guess, test, and revise method
• algebraic models
• reasoning skills
• working with patterns
• number sequences
• arithmetic and geometric sequences
• pattern recognition and solving a simplified version
• working backward and problem restatement

2. Sets

• elements, subsets, power sets, and cardinal numbers
• complement, relative complement, intersection, and union
• Cartesian product, relations, and equivalent sets
• associative, commutative, identity, inverse, closure properties, and De Morgan's laws
• word problems
• Venn diagrams

3. Whole numbers

• operations with whole numbers
• addition and subtraction models: set model and measurement model
• subtraction models: take-away, missing addend, and comparison
• multiplication models: the set model and repeated addition
• division models: partition, grouping, measurement, and missing factor
• properties: associativity, commutativity, distributivity, and closure
• order of operations
• solution set for equations and inequalities

4. The set of integers and elementary number theory

• integers: properties, operations
• the coloured chips (square) model
• order of integers
• absolute value
• primes, relatively prime numbers, composite numbers, and test for divisibility
• the Fundamental Theorem of Arithmetic 
• divisibility a|b, and its properties
• prime factorization and standard prime factorization: factor tree method, and division (ladder) model
• the greatest common factor (GCF) and least common multiple (LCM) of two and three positive integers: list method, prime factorization, division method, and Euclidean algorithm
• word problems involving applications of GCFand LCM

5. The set of rational numbers

• rational numbers and fractions
• equivalent fractions, reduced fractions, and the Fundamental Law of Fractions
• proper fractions, improper fractions, and mixed numbers
• operations and properties
• mental arithmetic and estimation with rational numbers
• order in fractions
• equations and inequalities involving rational numbers
• ratios and proportions, and applications

6. Real numbers

• decimals
• rational numbers versus irrational numbers
• exponentials, and exponent rules
• terminating and non-terminating decimal representations
• decimal operations models
• order in decimals
• square root, other roots, and rational exponents
• Pythagorean theorem and its applications
• mental arithmetic and estimation for decimals and radicals
• ratios, decimals, and percents
• word problems involving applications of decimals and percentages

7. Geometry

• informal geometry
• points, lines, rays, line segments, and planes in space with their subsets 
• relations among lines and planes
• terms related to lines: collinearity, parallel, perpendicular, skew, and transversal
• terms related to angles, including supplementary, complementary, adjacent, vertical, alternate, acute, obtuse, and reflex
• terms related to triangles, including equilateral, isosceles, scalene, right, similarity and congruence
• figures in plane
• simple and closed curves
• the Jordan Curve Theorem
• convex and concave figures
• polygons, circles, and their combinations
• special polygons: equilateral, equiangular, and regular
• classification of triangles: equilateral, isosceles, scalene, right, similar and congruent
• quadrilaterals
• angles of polygons
• figures in space
• simple closed surfaces and polyhedra
• prisms, pyramids, cones, cylinders, spheres, and their combinations
• Euler’s formula for polyhedra
• regular polyhedra and Platonic solids

8. Length, area, volume, and measurement in the metric and imperial systems

• fundamental measurement properties, including covering, congruence, additive, and comparison, to determine length, area, surface area, and volume
• perimeter and area of polygons, circles, triangles, parallelograms, trapezoids, rhombuses, kites, squares, circles, and their combinations
• volume and surface area of prisms, pyramids, cylinders, spheres, cones, and their combinations
• SI units for capacity, volume, mass, weight, and temperature

9. Transformations and coordinate geometry

• coordinate geometry: Cartesian coordinates, midpoint formula, distance formula and its properties
• motion geometry:
• rigid transformations: translations, reflections, rotations, and glide reflections
• combining transformations
• scaling: enlargements and reductions

10. Congruence and similarity

• congruent shapes
• similarity and scale factor