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The Straight Line Functions and Graphs Composite Functions Trigonometry Recurrence Relations Basics before Differentiation Differentiation 1 Polynomials.

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Presentation on theme: "The Straight Line Functions and Graphs Composite Functions Trigonometry Recurrence Relations Basics before Differentiation Differentiation 1 Polynomials."— Presentation transcript:

1 The Straight Line Functions and Graphs Composite Functions Trigonometry Recurrence Relations Basics before Differentiation Differentiation 1 Polynomials and Quadratic Theory Basics before Integration Integration 1 Trig Equations & Equations The Circle Vectors 1 Vectors 2 Further Differentiation Logs & Exponentials Wave Functions

2 Straight Line y = mx + c m = gradient c = y intercept (0,c) m = tan θ θ Possible values for gradient m > 0 m < 0 m = 0 m = undefined Distance between 2 points For Perpendicular lines the following is true. m 1.m 2 = -1 Parallel lines have same gradient Form for finding line equation y – b = m(x - a) (a,b) = point on line Terminology Median – midpoint Bisector – midpoint Perpendicular – Right Angled Altitude – right angled m 1.m 2 = -1

3 f(x) Graphs & Functions y = -f(x) y = f(-x) y = f(x) ± k y = f(kx) Move vertically up or downs depending on k flip in y-axis flip in x-axis + - Stretch or compress vertically depending on k y = kf(x) Stretch or compress horizontally depending on k f(x) y = f(x ± k) Move horizontally left or right depending on k + - Remember we can combine these together !!

4 Composite Functions Similar to composite Area A complex function made up of 2 or more simpler functions =+ f(x) = x 2 - 4 g(x) = 1 x x DomainRange y = f(x) 1 y 1 x 2 - 4 Restriction x 2 - 4 ≠ 0 (x – 2)(x + 2) ≠ 0 x ≠ 2x ≠ -2 But y = f(x) is x 2 - 4 g(f(x)) g(f(x)) = f(x) = x 2 - 4 g(x) = 1 x x DomainRange y = g(x) f(g(x)) y 2 - 4 Restriction x 2 ≠ 0 But y = g(x) is f(g(x)) = 1 x 1 x 2 - 4 Rearranging 1 x2x2

5 Trigonometry sin, cos, tan Basic Strategy for Solving Trig Equations Basic Graphs 360 o 1 0 1 0 360 o 1 0 180 o 90 o sin x cos x Exact Value Table 1.Rearrange into sin = 2.Find solution in Basic Quads 3.Remember Multiple solutions Amplitude Period Amplitude Period Complex Graph 2 1 0 90 o 180 o 270 o 360 o 3 y = 2sin(4x + 45 o ) + 1 Max. Value =2+1= 3 Mini. Value = -2+1 -1 Period = 360 ÷4 = 90 o Amplitude = 2 degreesradians ÷180 then X π ÷ π÷ π then x 180 C A S T 0o0o 180 o 270 o 90 o Period tan x Period Amplitude

6 Recurrence Relations next number depends on the previous number a > 1 then growth a < 1 then decay Limit exists when | a | < 1 + b = increase - b = decrease Given three value in a sequence e.g. U 10, U 11, U 12 we can work out recurrence relation U n+1 = a U n + b | a | < 1 | a | > 1 a = sets limit b = moves limit U n = no effect on limit Limit L is equal to L =L = b (1 - a) U 11 = a U 10 + b U 12 = a U 11 + b Use Sim. Equations

7 Adding Basics before Differentiation Working with fractions Indices Surds Subtracting Multiplication Division Format for differentiating

8 Differentiation of Polynomials f(x) = ax n then f’x) = anx n-1 Derivative = gradient = rate of change Graphs f’(x)=0 f’(x)=0 Stationary Pts Max. / Mini Pts Inflection Pt Nature Table 25 + 0 - x f’(x) Max Gradient at a point Equation of tangent line Straight Line Theory Leibniz Notation

9 Polynomials Functions of the type f(x) = 3x 4 + 2x 3 + 2x +x + 5 b 2 -4ac > 0 Real and distinct roots Degree of a polynomial = highest power Discriminant of a quadratic is b 2 -4ac Completing the square f(x) = a(x + b) 2 + c If finding coefficients Sim. Equations b 2 -4ac = 0 Equal roots b 2 -4ac < 0 No real roots Tangency 1 4 5 2-2 -2-4-2 2101 (x+2) is a factor since no remainder Easy to graph functions & graphs f(x) =2x 2 + 4x + 3 f(x) =2(x + 1) 2 - 2 + 3 f(x) =2(x + 1) 2 + 1 Factor Theorem x = a is a factor of f(x) if f(a) = 0

10 Adding Basics before Integration Working with fractions Indices Surds Subtracting Multiplication Division Format for integration

11 Integration of Polynomials IF f’(x) = ax n Then I = f(x) = Integration is the process of finding the AREA under a curve and the x-axis Area between 2 curves Finding where curve and line intersect f(x)=g(x) gives the limits a and b Remember to work out separately the area above and below the x-axis. Remember to change sign to + if area is below axis. f(x) g(x) A= ∫ f(x) - g(x) dx b a

12 Trig Formulae and Trig equations Addition Formulae sin(A ± B) = sinAcosB cosAsinB cos(A ± B) = cosAcosB sinAsinB Double Angle Formulae sin2A = 2sinAcosA cos2A = 2cos 2 A - 1 = 1 - 2sin 2 A = cos 2 A – sin 2 A 3cos 2 x – 5cosx – 2 = 0 Let p = cosx 3p 2 – 5p - 2 = 0 (3p + 1)(p -2) = 0 p = cosx = 1/3 cosx = 2 x = no sol n x = cos -1 ( 1/3) x = 109.5 o and 250.5 o C A S T 0o0o 180 o 270 o 90 o xoxo 44 2 The exact value of sinx sinx = 2sin(x/2)cos(x/2) sinx = 2 (¼ + √(4 2 - 1 2 ) ) sinx = ½ + 2√15)

13 Special case

14 Q B A Vector Theory Magnitude & Direction Vectors are equal if they have the same magnitude & direction P a Notation Component form Unit vector form Basic properties same for subtraction Scalar product Magnitude scalar product 2 vectors perpendicular if Component form Addition

15 B Vector Theory Magnitude & Direction Points A, B and C are said to be Collinear if B is a point in common. C A Section formula properties n m a c b O A B C Angle between two vectors θ a b Tail to tail

16 Differentiations Polynomial s Stationary Pts Mini / Max Pts Inflection Pts Rate of change of a function. Harder functions Use Chain Rule Meaning Graphs Rules of Indices Gradient at a point. Tangent equation Straight line Theory Factorisatio n Real life Tri g

17 y x y x (1,0) (a,1) (0,1) Logs & Exponentials Basic log rules y = ab x Can be transformed into a graph of the form y = log a x log A + log B = log AB log A - log B = log B A log a 1 = 0 log a a = 1 log (A) n = n log A Basic log graph Basic exponential graph (1,a) y = a x a 0 = 1 a 1 = a log y = x log b + log a C = log am = log b (0,C) log y x y = ax b Can be transformed into a graph of the form log y = b log x + log a C = log am = b (0,C) log y log x To undo log take exponential To undo exponential take log Y = bX + CY = (log b) X + C Y = mX + CY = mX + C

18 Wave Function transforms f(x)= a sinx + b cosx into the form f(x) = a sinx + b cosx compare to required trigonometric identities Process example a and b values decide which quadrant OR f(x) = k sin(x + β) = k sinx cos β + k cosx sin β Compare coefficients a = k cos β b = k sin β Square and add then square root gives Divide and inverse tan gives Related topic Solving trig equations Write out required form

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