| # | TOPIC | TITLE | +/- | |
|---|---|---|---|---|
| 1 | Study Plan | Study plan - Year 12 | Info | Go |
|
Objective: On completion of the course formative assessment a tailored study plan is created identifying the lessons requiring revision. |
||||
| 2 | Geometry-angles | Measuring angles | Info | Go |
|
Objective: On completion of the lesson the student will be able to measure any angle between 0 and 360 degrees using a protractor, and identify what type of angle it is. |
||||
| 3 | Geometry-angles | Adjacent angles | Info | Go |
|
Objective: On completion of the lesson the student will be able to understand the parts of an angle, what adjacent angles are and how they are used to solve simple angle problems. |
||||
| 4 | Geometry-angles | Complementary and supplementary angles | Info | Go |
|
Objective: On completion of the lesson the student will able to identify Complementary and Supplementary Angles and use this knowledge to solve simple geometric angle problems. |
||||
| 5 | Geometry-angles | Vertically opposite angles | Info | Go |
|
Objective: On completion of the lesson the student will able to identify Vertically Opposite Angles and use this knowledge to solve simple geometric angle problems. |
||||
| 6 | Geometry-angles | Angles at a Point. | Info | Go |
|
Objective: On completion of the lesson the student will able to identify Angles at a Point and use this knowledge and other angles concepts to solve simple geometric angle problems. |
||||
| 7 | Geometry-angles | Parallel Lines. | Info | Go |
|
Objective: On completion of the lesson the student will able to identify corresponding, co-interior and alternate angles. |
||||
| 8 | Geometry-problems | Additional questions involving parallel lines | Info | Go |
|
Objective: On completion of the lesson the student will able to complete two step parallel line questions, and identify other ways to solve them. |
||||
| 9 | Geometry-triangles | Angle sum of a triangle | Info | Go |
|
Objective: On completion of the lesson the student will able to identify and use the angle sum of a triangle theorem to solve geometric problems. |
||||
| 10 | Geometry-triangles | Exterior angle theorem | Info | Go |
|
Objective: On completion of the lesson the student will able to identify and use the exterior angle of a triangle theorem to solve geometric questions. |
||||
| 11 | Special triangles | Special triangles | Info | Go |
|
Objective: On completion of the lesson the student will able to identify an equilateral and an isosceles triangle and solve geometry questions involving these triangles. |
||||
| 12 | Geometry-quadrilaterals | Quadrilaterals | Info | Go |
|
Objective: On completion of the lesson the student will able to find missing angles by using the fact that a quadrilateral's angle sum is 360 degrees. |
||||
| 13 | Geometry-constructions | Geometric constructions | Info | Go |
|
Objective: On completion of the lesson the student will able complete constructions with a ruler and a pair of compasses. |
||||
| 14 | Geometry | To identify collinear points, coplanar lines and points in 2 and 3 dimensions | Info | Go |
|
Objective: On completion of the lesson the student will use correct terms to describe points, lines, intervals and rays. |
||||
| 15 | Geometry - angles | To determine angle labelling rules, naming angles according to size, angle bisector properties and related algebra | Info | Go |
|
Objective: On completion of the lesson the student will label angles, use a protractor and perform calculations using algebra involving angles. |
||||
| 16 | Geometry-constructions | Angle bisector construction and its properties (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will be able to bisect an angle using a pair of compasses and a straight edge. |
||||
| 17 | Geometry-constructions | Circumcentre and incentre (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will be able geometrically construct the circumcentre and incentre for a triangle and to use Pythagoras' Theorem to calculate values. |
||||
| 18 | Geometry-constructions | Orthocentre and centroids (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will be able geometrically construct the orthocentre and centroid for a triangle and to use algebra to calculate values. |
||||
| 19 | Geometry-quadrilaterals | Midsegments of Triangles | Info | Go |
|
Objective: On completion of the lesson the student will be able to use coordinate geometry to apply the midsegment properties of a triangle. |
||||
| 20 | Geometry-quadrilaterals | Classifying Quadrilaterals | Info | Go |
|
Objective: On completion of this lesson the student will understand the properties that classify quadrilaterals. |
||||
| 21 | Geometry-quadrilaterals | Using the Properties of a Parallelogram | Info | Go |
|
Objective: On completion of this lesson the student will be able to use and prove the properties of a parallelogram. |
||||
| 22 | Geometry-quadrilaterals | Proving a Shape is a Parallelogram | Info | Go |
|
Objective: On completion of this lesson the student will be able to use properties to prove a given quadrilateral is a parallelogram. |
||||
| 23 | Geometry-quadrilaterals | Properties of the Rectangle, Square and Rhombus | Info | Go |
|
Objective: On completion of this lesson students will be able to use the properties of the rectangle, square and rhombus for formal proofs and to find values. |
||||
| 24 | Geometry-quadrilaterals | Properties of the Trapezium and Kite | Info | Go |
|
Objective: On completion of this lesson students will be able to use the properties of the trapezium and kite for formal proofs and to find values. |
||||
| 25 | Geometry-quadrilaterals | The quadrilateral family and coordinate methods in geometry | Info | Go |
|
Objective: On completion of this lesson the student will know the relationships between quadrilaterals and use coordinate methods to prove some of the properties. |
||||
| 26 | Geometry-locus | Constructions and loci - single condition | Info | Go |
|
Objective: On completion of the lesson the student will understand the term locus and describe several using a single condition. |
||||
| 27 | Geometry-locus | Constructions and loci - multiple conditions | Info | Go |
|
Objective: On completion of the lesson the student will describe a locus that satisfies multiple conditions on a number plane. |
||||
| 28 | Geometry problems | More difficult exercises involving parallel lines | Info | Go |
|
Objective: On completion of the lesson the student will able to identify corresponding, co-interior and alternate angles in questions that are more difficult than previously completed. Students will also learn to use other geometric properties as well as set out log |
||||
| 29 | Geometry-reasoning | Further difficult exercises involving formal reasoning | Info | Go |
|
Objective: On completion of the lesson the student will be able to identify which geometric properties are needed to complete a question and be able to use formal reasoning to write out this information. |
||||
| 30 | Geometry-polygons | Angles of regular polygons | Info | Go |
|
Objective: On completion of the lesson the student will be able to identify and use the angle sum of a polygon formula, and understand that the external angles of a polygon add up to 360 degrees. |
||||
| 31 | Geometry-congruence | Congruent triangles, Test 1 and 2 | Info | Go |
|
Objective: On completion of the lesson the student will be able to identify which test to use to show two triangles are congruent. |
||||
| 32 | Geometry-congruence | Congruent triangles, Test 3 and 4 | Info | Go |
|
Objective: On completion of the lesson the student will be able to identify other tests to use to show two triangles are congruent. |
||||
| 33 | Geometry-congruence | Proofs and congruent triangles. | Info | Go |
|
Objective: On completion of the lesson the student will be able to set out a formal proof to show that two triangles are congruent. |
||||
| 34 | Similar triangles | Similar triangles | Info | Go |
|
Objective: On completion of the lesson the student will be able to identify which test to use to show two triangles are similar. |
||||
| 35 | Similar triangles | Using similar triangles to calculate lengths | Info | Go |
|
Objective: On completion of the lesson the student will be able to calculate lengths using similar triangles. |
||||
| 36 | Overlapping triangles | Examples involving overlapping triangles | Info | Go |
|
Objective: On completion of the lesson the student will be able to calculate unknown sides in overlapping or adjacent similar triangles. |
||||
| 37 | Geometry - triangles | Triangle inequality theorem | Info | Go |
|
Objective: On completion of the lesson the student will understand and use the triangle inequality theorem. |
||||
| 38 | Circle Geometry | Theorem - Equal arcs on circles of equal radii subtend equal angles at the centre. Theorem - Equal angles at the centre of a circle on equal arcs. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that 'Equal arcs on circles of equal radii, subtend equal angles at the centre', and that 'Equal angles at the centre of a circle stand on equal arcs.' They should then be able to use these pro |
||||
| 39 | Circle Geometry | Theorem - The perpendicular from the centre of a circle to a chord bisects the chord. Theorem - The line from the centre of a circle to the mid-point of the chord is perpendicular to the chord. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that 'The perpendicular from the centre of a circle to a chord bisects the chord.' and its converse theorem 'The line from the centre of a circle to the mid-point of the chord is perpendicular' |
||||
| 40 | Circle Geometry | Theorem - Equal chords in equal circles are equidistant from the centres. Theorem - Chords in a circle which are equidistant from the centre are equal. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that equal chords in equal circles are equidistant from the centre. |
||||
| 41 | Circle Geometry | Theorem - The angle at the centre of a circle is double the angle at the circumference standing on the same arc. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that the angle at the centre of a circle is double the angle at the circumference standing on the same arc. |
||||
| 42 | Circle Geometry | Theorem - Angles in the same segment of a circle are equal. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that the angles in the same segment are equal. |
||||
| 43 | Circle Geometry | Theorem - The angle of a semi-circle is a right angle. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that 'The angle of a semi-circle is a right-angle.' |
||||
| 44 | Circle Geometry | Theorem - The opposite angles of a cyclic quadrilateral are supplementary. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that the opposite angles of a cyclic quadrilateral are supplementary. |
||||
| 45 | Circle Geometry | Theorem - The exterior angle at a vertex of a cyclic quadrilateral equals the interior opposite angle. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that the exterior angle at a vertex of a cyclic quadrilateral equals the interior opposite. |
||||
| 46 | Circle Geometry | Theorem - The tangent to a circle is perpendicular to the radius drawn to it at the point of contact. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that the tangent and the radius of a circle are perpendicular at the point of contact. |
||||
| 47 | Circle Geometry | Theorem - Tangents to a circle from an external point are equal. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that tangents to a circle from an external point are equal. |
||||
| 48 | Circle Geometry | Theorem - The angle between a tangent and a chord through the point of contact is equal to the angle in the alternate segment. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that the angle between a tangent and a chord through the point of contact is equal to the angle in the alternate segment. |
||||
| 49 | Circle Geometry-chords | Theorem - The products of the intercepts of two intersecting chords are equal. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that 'The product of the intercepts of two intersecting chords are equal.', and use this result to complete questions that require this knowledge. |
||||
| 50 | Circle Geometry-tangents | Theorem - The square of the length of the tangent from an external point is equal to the product of the intercepts of the secant passing through this point. [Including Alternate Proof] | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove and apply 'The square of the length of the tangent from an external point is equal to the product of the intercepts of the secant passing through this point ', and use this result to complete q |
||||
| 51 | Circle Geometry-cyclic quads | Theorem - If the opposite angles in a quadrilateral are supplementary then the quadrilateral is cyclic. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that a quadrilateral is cyclic using the supplementary angles theorem. |
||||
| 52 | Circle Geometry-subtending | Theorem - If an interval subtends equal angles at two points on the same side of it, then the end points of the interval and the two points are concyclic. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that ' If an interval subtends equal angles at two points on the same side of it, then the end points of the interval and the two points are concyclic', and use this result to complete the ques |
||||
| 53 | Circle Geometry | Theorem - When circles touch, the line of the centres passes through the point of contact. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that ' When two circles touch, the line of the centres passes through the point of contact', and use this result to complete questions that require it. |
||||
| 54 | Circle Geometry-non-collinear | Theorem - Any three non-collinear points lie on a unique circle whose centre is the point of concurrency of the perpendicular bisectors of the intervals joining these points. | Info | Go |
|
Objective: On completion of the lesson the student will be able to prove that ' Any three non-collinear points lie on a unique circle whose centre is the point of concurrency of the perpendicular bisectors of the intervals joining these points', and use this knowled |
||||
| 55 | Graphing-polynomials | Graphing complex polynomials: quadratics with no real roots | Info | Go |
|
Objective: On completion of the lesson the student will be able to determine whether a quadratic has real or complex roots and then graph it. |
||||
| 56 | Graphing-polynomials | General equation of a circle: determine and graph the equation | Info | Go |
|
Objective: On completion of the lesson the student will be able to solve these types of problems. Working with circles will also help the student in the topic of circle geometry, which tests the student's skills in logic and reasoning. |
||||
| 57 | Graphing-cubic curves | Graphing cubic curves | Info | Go |
|
Objective: On completion of this lesson the student will be able to graph a cubic given its equation or derive the equation of a cubic given its graph or other relevant information. |
||||
| 58 | Absolute value equations | Absolute value equations | Info | Go |
|
Objective: On completion of this lesson the student will be able to relate to graphs involving the absolute value function. The student will be capable of graphing the function given its equation and be able to solve for the intersection of an absolute value functio |
||||
| 59 | Rect.hyperbola | The rectangular hyperbola. | Info | Go |
|
Objective: On completion of the lesson the student will be able to analyse and graph a rectangular hyperbola and describe its important features. |
||||
| 60 | Exponential function | The exponential function. | Info | Go |
|
Objective: On completion of the lesson the student will be able to graph any equation in the form y equals a to the power x, where a is any positive real number apart from 1. |
||||
| 61 | Log functions | Logarithmic functions. | Info | Go |
|
Objective: On completion of this lesson the student will be able to define basic logarithmic functions and describe the relationship between logarithms and exponents including graph logarithmic functions. The student will understand the relationship between logarit |
||||
| 62 | Conic sections | Introduction to conic sections and their general equation | Info | Go |
|
Objective: On completion of the lesson the student will identify the conic section from the coefficients of the equation. |
||||
| 63 | Conic sections | The parabola x. = 4ay | Info | Go |
|
Objective: On completion of the lesson the student will identify the focus and directrix for a parabola given in standard form. |
||||
| 64 | Conic sections | Circles | Info | Go |
|
Objective: On completion of the lesson the student will identify the radius of a circle given in standard form. |
||||
| 65 | Conic sections | Ellipses | Info | Go |
|
Objective: On completion of the lesson the student will identify focus, vertices and axes of an ellipse. |
||||
| 66 | Conic sections | Hyperbola | Info | Go |
|
Objective: On completion of the lesson the student will identify focus, vertices, axes and asymptotes of a hyperbola. |
||||
| 67 | Sequences and Series | General sequences. | Info | Go |
|
Objective: On completion of the lesson the student will be able to work out a formula from a given number pattern and then be able to find particular terms of that sequence using the formula. |
||||
| 68 | Sequences and Series | Finding Tn given Sn. | Info | Go |
|
Objective: On completion of the lesson the student will understand the concept that the sum of n terms of a series minus the sum of n minus one terms will yield the nth term. |
||||
| 69 | Arithmetic Progression | The arithmetic progression | Info | Go |
|
Objective: On completion of the lesson the student will be able to test if a given sequence is an Arithmetic Progression or not and be capable of finding a formula for the nth term, find any term in the A.P. and to solve problems involving these concepts. |
||||
| 70 | Arithmetic Progression | Finding the position of a term in an A.P. | Info | Go |
|
Objective: On completion of the lesson the student will be able to solve many problems involving finding terms of an Arithmetic Progression. |
||||
| 71 | Arithmetic Progression | Given two terms of A.P., find the sequence. | Info | Go |
|
Objective: On completion of the lesson the student will be able to find any term of an Arithmetic Progression when given two terms |
||||
| 72 | Arithmetic Progression | Arithmetic means | Info | Go |
|
Objective: On completion of the lesson the student will be able to make an arithmetic progression between two given terms. This could involve finding one, two, or even larger number of arithmetic means. |
||||
| 73 | Arithmetic Progression | The sum to n terms of an A.P. | Info | Go |
|
Objective: On completion of the lesson the student will understand the formulas for the sum of an Arithmetic Progression and how to use them in solving problems. |
||||
| 74 | Geometric Progression | The geometric progression. | Info | Go |
|
Objective: On completion of the lesson the student will be able to test if a given sequence is a Geometric Progression or not and be capable of finding a formula for the nth term, find any term in the G.P. and to solve problems involving these concepts. |
||||
| 75 | Geometric Progression | Finding the position of a term in a G.P. | Info | Go |
|
Objective: On completion of the lesson the student will understand how to find terms in a geometric progression and how to apply it different types of problems. |
||||
| 76 | Geometric Progression | Given two terms of G.P., find the sequence. | Info | Go |
|
Objective: On completion of this lesson the student will be able to solve all problems involving finding the common ratio of a Geometric Progression. |
||||
| 77 | Sequences and Series-Geometric means | Geometric means. | Info | Go |
|
Objective: On completion of the lesson the student will be able to make a geometric progression between two given terms. This could involve finding one, two, or even larger number of geometric means. |
||||
| 78 | Sequences and Series-Sum of gp | The sum to n terms of a G.P. | Info | Go |
|
Objective: On completion of the lesson the student will understand the formulas and how to use them to solve problems in summing terms of a Geometric Progression (G.P). |
||||
| 79 | Sequences and Series-Sigma notation | Sigma notation | Info | Go |
|
Objective: On completion of the G.P. lesson the student will be familiar with the sigma notation and how it operates. |
||||
| 80 | Sequences and Series-Sum-infinity | Limiting sum or sum to infinity. | Info | Go |
|
Objective: On completion of the lesson the student will have learnt the formula for the limiting sum of a G.P., the conditions for it to exist and how to apply it to particular problems. |
||||
| 81 | Sequences and Series-Recurring decimal infinity | Recurring decimals and the infinite G.P. | Info | Go |
|
Objective: On completion of the G.P. lesson the student will have understood how to convert any recurring decimal to a rational number. |
||||
| 82 | Sequences and Series-Compound interest | Compound interest | Info | Go |
|
Objective: On completion of the G.P. lesson the student will understand the compound interest formula and how to use it and adjust the values of r and n, if required, for different compounding periods. |
||||
| 83 | Sequences and Series-Superannuation | Superannuation. | Info | Go |
|
Objective: On completion of the lesson the student will understand the method of finding the accumulated amount of a superannuation investment using the sum formula for a G.P. |
||||
| 84 | Sequences and Series-Time payments | Time payments. | Info | Go |
|
Objective: On completion of the lesson the student will have examined examples carefully and be capable of setting out the long method of calculating a regular payment for a reducible interest loan. |
||||
| 85 | Sequences and Series | Applications of arithmetic sequences | Info | Go |
|
Objective: On completion of the lesson the student will be capable of problems involving practical situations with arithmetic series. |
||||
| 86 | Logarithms-Complex numbers | Imaginary numbers and standard form | Info | Go |
|
Objective: On completion of the lesson the student will use the a+bi form of complex numbers for addition and subtraction. |
||||
| 87 | Logarithms-Complex numbers | Complex numbers - multiplication and division | Info | Go |
|
Objective: On completion of the lesson the student will use the a+bi form of complex numbers for multiplication and division. |
||||
| 88 | Logarithms-Complex numbers | Plotting complex number and graphical representation | Info | Go |
|
Objective: On completion of the lesson the student will use the argand diagram to assist in the addition and subtraction of complex numbers. |
||||
| 89 | Logarithms-Complex numbers | Absolute value | Info | Go |
|
Objective: On completion of the lesson the student will use the absolute value or modulus of complex numbers |
||||
| 90 | Logarithms-Complex numbers | Trigonometric form of a complex number | Info | Go |
|
Objective: On completion of the lesson the student will write complex numbers in trigonometric or polar form. This may also be known as mod-ard form. |
||||
| 91 | Logarithms-Complex numbers | Multiplication and division of complex numbers in trig form (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will use the trig form of complex numbers for multiplication and division. |
||||
| 92 | Logarithms-Complex numbers | DeMoivre's theorem (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will use DeMoivre's theorem to find powers of complex numbers in trig form. |
||||
| 93 | Logarithms-Complex numbers | The nth root of real and complex numbers (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will use DeMoivre's theorem to find roots of complex numbers in trig form. |
||||
| 94 | Logarithms-Complex numbers | Fundamental theorem of algebra (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will recognise and use the fundamental theorem of algebra to find factors for polynomials with real coefficients over the complex number field. |
||||
| 95 | Trig-reciprocal ratios | Reciprocal ratios. | Info | Go |
|
Objective: On completion of the lesson the student will be able to identify and use the reciprocal trigonometric ratios of sine, cosine and tan, that is, the cosecant, secant and cotangent ratios. |
||||
| 96 | Trig complementary angles | Complementary angle results. | Info | Go |
|
Objective: On completion of the lesson the student will understand how to establish the complementary angle results for the sine and cosine ratios and then how to use these results to solve trig equations. |
||||
| 97 | Trig identities | Trigonometric identities | Info | Go |
|
Objective: On completion of the lesson the student will be able to simplify trigonometrical expressions and solve trigonometry equations using the knowledge of trig identities. |
||||
| 98 | Trig larger angles | Angles of any magnitude | Info | Go |
|
Objective: On completion of the lesson the student will be able to find the trigonometric values of angles of any magnitude by assigning angles to the four quadrants of the circle. |
||||
| 99 | Trig larger angles | Trigonometric ratios of 0°, 90°, 180°, 270° and 360° | Info | Go |
|
Objective: On completion of the lesson the student will learn how to find the Trigonometric Ratios of 0, 90, 180, 270 and 360 degrees. |
||||
| 100 | Graph sine | Graphing the trigonometric ratios - I Sine curve. | Info | Go |
|
Objective: On completion of the lesson the student will recognise and draw the sine curve exploring changes in amplitude and period. |
||||
| 101 | Graph cosine | Graphing the trigonometric ratios - II Cosine curve. | Info | Go |
|
Objective: On completion of the lesson the student will know how to recognise and draw the cosine curve exploring changes in amplitude and period. |
||||
| 102 | Graphs tan curve | Graphing the trigonometric ratios - III Tangent curve. | Info | Go |
|
Objective: On completion of the lesson the student will know how to recognise and draw the tan curve. |
||||
| 103 | Graph reciprocals | Graphing the trigonometric ratios - IV Reciprocal ratios. | Info | Go |
|
Objective: On completion of the lesson the student will know how to recognise and draw the curves of the reciprocal ratios: cosec, sec and cot. |
||||
| 104 | Trig larger angles | Using one ratio to find another. | Info | Go |
|
Objective: On completion of the lesson the student will find other trig ratios given one trig ratio and to work with angles of any magnitude. |
||||
| 105 | Trig equations | Solving trigonometric equations - Type I. | Info | Go |
|
Objective: On completion of the lesson the student will solve simple trig equations with restricted domains. |
||||
| 106 | Trig equations | Solving trigonometric equations - Type II. | Info | Go |
|
Objective: On completion of the lesson the student will solve trig equations with multiples of theta and restricted domains. |
||||
| 107 | Trig equations | Solving trigonometric equations - Type III. | Info | Go |
|
Objective: On completion of the lesson the student will solve trig equations with two trig ratios and restricted domains. |
||||
| 108 | Polar coordinates | Plotting polar coordinates and converting polar to rectangular | Info | Go |
|
Objective: On completion of the lesson the student will understand the polar coordinate system and relate this to the rectangular coordinate system. |
||||
| 109 | Polar coordinates | Converting rectangular coordinates to polar form | Info | Go |
|
Objective: On completion of the lesson the student will understand the polar coordinate system and report these from rectangular coordinates. |
||||
| 110 | Polar coordinates | Write and graph points in polar form with negative vectors (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will be using negative angles and negative vector lengths. |
||||
| 111 | Trigonometry | Sin(A+B) etc sum and difference identities (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will be using the reference triangles for 30, 45 and 60 degrees with the sum and difference of angles to find additional exact values of trigonometric ratios. |
||||
| 112 | Trigonometry | Double angle formulas (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will derive and use the double angle trig identities. |
||||
| 113 | Trigonometry | Half angle identities (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will derive and use the power reducing formulas and the half angle trig identities. |
||||
| 114 | Trigonometry | t Formulas (Stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will solve trig equations using the t substitution. |
||||
| 115 | Calculus - Curve sketching | Curve sketching | Info | Go |
|
Objective: On completion of the Calculus lesson the student will be able to use the first and second derivatives to find turning points of a curve, identify maxima and minima, and concavity, then use this information to sketch a curve. |
||||
| 116 | Calculus - Maxima minima | Practical applications of maxima and minima | Info | Go |
|
Objective: On completion of the lesson the student will be able to apply calculus to a suite of simple maxima or minima problems. |
||||
| 117 | Calculus - Integration | Integration - anti-differentiation, primitive function | Info | Go |
|
Objective: On completion of the Calculus lesson the student will be able to use rules of integration to find primitives of some simple functions. |
||||
| 118 | Calculus - Computation area | Computation of an area | Info | Go |
|
Objective: On completion of the Calculus lesson the student will be able to select an appropriate formula to calculate an area, re-arrange an expression to suit the formula, and use correct limits in the formula to evaluate an area. |
||||
| 119 | Calculus - Computation volumes | Computation of volumes of revolution | Info | Go |
|
Objective: On completion of the Calculus lesson the student will know how to choose an appropriate volume formula, re-arrange an expression to suit the formula, and then calculate a result to a prescribed accuracy. |
||||
| 120 | Calculus - Trapezoidal and Simpson's rules | The Trapezoidal rule and Simpson's rule | Info | Go |
|
Objective: On completion of the Calculus lesson the student will know how to calculate sub-intervals, set up a table of values, then apply the Trapezoidal Rule, or Simpson's Rule to approximate an area beneath a curve. |
||||
| 121 | Matrices | Basic concepts | Info | Go |
|
Objective: On completion of the lesson the student will have had an introduction to matrices |
||||
| 122 | Matrices | Addition and subtraction of matrices | Info | Go |
|
Objective: On completion of this lesson the student will be able to recognise when addition and subtraction of matrices is possible, and perform these operations. |
||||
| 123 | Matrices | Scalar matrix multiplication | Info | Go |
|
Objective: On completion of this lesson the student will be able to perform scalar multiplication of a matrix. |
||||
| 124 | Matrices | Multiplication of one matrix by another matrix | Info | Go |
|
Objective: On completion of the lesson the student will be able to state whether matrix by matrix multiplication is possible, predict the order of the answer matrix, and then perform matrix by matrix multiplication. |
||||
| 125 | Matrices | Translation in the number plane | Info | Go |
|
Objective: On completion of the lesson the student will be able to place ordered pairs into a matrix, then perform translation by addition using a transformation matrix, then extract ordered pairs from an answer matrix. |
||||
| 126 | Matrices | Translation by matrix multiplication | Info | Go |
|
Objective: On completion of the lesson the student will be able to convert ordered pairs to elements of a matrix, multiply matrices together, where possible, and interpret the answer matrix on a number plane. |
||||
| 127 | Transformations | Special transformations - reflections, rotations and enlargements. | Info | Go |
|
Objective: On completion of the lesson the student will be able to perform transformations: to rotate, reflect and change the size of various shapes and or points where applicable. |
||||
| 128 | Vectors | Vectors | Info | Go |
|
Objective: On completion of the lesson the student will be able to represent a vector in matrix and diagrammatic form, as well as add two vectors using matrices and/or a diagram. |
||||
| 129 | Simultaneous equations | Number of solutions (Stage 2) | Info | Go |
|
Objective: On completion of the lesson of the lesson the student will identify simultaneous equations that are consistent, inconsistent or the same. |
||||
| 130 | Vectors | 2 vector addition in 2 and 3D (stage 2) | Info | Go |
|
Objective: On completion of the lesson the student will understand and use component forms for vector resolution. |
||||
| 131 | Exam | Exam - Year 12 - Specialist Mathematics Units 3 and 4 | Info | Go |
|
Objective: Exam |
||||
Join today and have your whole family enjoy the benefits that only a great educational product can deliver. With a 14-day Money Back Guarantee you can't afford not to join!Enquiry form
Simply fill out our enquiry form with any questions or suggestions you may have. Our friendly staff is more
than keen to answer any question you have regarding
our learning system or general questions. Enquiry form