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Trigonometric Graphs 6.2.

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Presentation on theme: "Trigonometric Graphs 6.2."— Presentation transcript:

1 Trigonometric Graphs 6.2

2 DAY 1

3 Let’s first make a chart of this function:
y = sin x x 30 60 90 120 150 180 210 240 270 300 330 360 sin x 0.5 0.87 1 0.87 0.5 -0.5 -0.87 -1 -0.87 -0.5

4 Now let’s plot 1 0.5 -0.5 -1

5 y = sinx Maximum Value = 1 Domain: All Reals Range: -1 ≤ y ≤ 1
90 180 270 360 -1 Maximum Value = 1 Domain: All Reals Range: -1 ≤ y ≤ 1 Minimum Value = -1

6 Let’s first make a chart of this function:
y = cos x x 30 60 90 120 150 180 210 240 270 300 330 360 cos x 1 0.87 0.5 -0.5 -0.87 -1 -0.87 -0.5 0.5 0.87 1

7 y = cosx Maximum Value = 1 Domain: All Reals Range: -1 ≤ y ≤ 1
90 180 270 360 -1 Maximum Value = 1 Domain: All Reals Range: -1 ≤ y ≤ 1 Minimum Value = -1

8 Properties of Sine and Cosine Functions
The graphs of y = sin x and y = cos x have similar properties: 1. The domain is the set of real numbers. 2. The range is the set of y values such that 3. The maximum value is 1 and the minimum value is –1. 4. The graph is a smooth curve. 5. Each function cycles through all the values of the range over an x-interval of 6. The cycle repeats itself indefinitely in both directions of the x-axis. Properties of Sine and Cosine Functions

9 If |a| > 1, the amplitude stretches the graph vertically.
The amplitude of y = a sin x (or y = a cos x) is half the distance between the maximum and minimum values of the function. amplitude = |a| If |a| > 1, the amplitude stretches the graph vertically. If 0 < |a| > 1, the amplitude shrinks the graph vertically. If a < 0, the graph is reflected in the x-axis. y x y = 2sin x y = sin x y = sin x y = – 4 sin x reflection of y = 4 sin x y = 4 sin x Amplitude

10 The period of a function is the x interval needed for the function to complete one cycle.
For b  0, the period of y = a sin bx is Shrink Horizontally: y x period: period: 2π Stretch Horizontally: y x period: 4 period: 2π

11 Y = 7sinx 7 90 180 270 360 -7 Maximum Value = 7 Minimum Value = -7

12 What is the equation of this graph? Maximum Value = 4
Y = 4cosx 4 90 180 270 360 -4 What is the equation of this graph? Maximum Value = 4 Minimum Value = -4

13 What is the equation of this graph? Maximum Value = 8
Y = - 8sinx 8 90 180 270 360 -8 “Opposite” to Sin x What is the equation of this graph? Maximum Value = 8 Minimum Value = -8

14 DAY 2

15 Use basic trigonometric identities to graph y = f (–x)
Example 1: Sketch the graph of y = sin (–x). The graph of y = sin (–x) is the graph of y = sin x reflected in the x-axis. y x y = sin (–x) Use the identity sin (–x) = – sin x y = sin x Example 2: Sketch the graph of y = cos (–x). The graph of y = cos (–x) is identical to the graph of y = cos x. y x Use the identity cos (–x) = – cos x y = cos (–x) y = cos (–x) Graph y = f(-x)

16 Use the identity sin (– x) = – sin x:
Example: Sketch the graph of y = 2 sin (–3x). Rewrite the function in the form y = a sin bx with b > 0 Use the identity sin (– x) = – sin x: y = 2 sin (–3x) = –2 sin 3x period: 2 3 = amplitude: |a| = |–2| = 2 Calculate the five key points. 2 –2 y = –2 sin 3x x y x ( , 2) (0, 0) ( , 0) ( , 0) ( , -2) Example: y = 2 sin(-3x)

17 Graph of the Tangent Function
To graph y = tan x, use the identity At values of x for which cos x = 0, the tangent function is undefined and its graph has vertical asymptotes. y x Properties of y = tan x 1. domain : all real x 2. range: (–, +) 3. period:  4. vertical asymptotes: period: Tangent Function

18 Example: Tangent Function
Example: Find the period and asymptotes and sketch the graph of y x 1. Period of y = tan x is . 2. Find consecutive vertical asymptotes by solving for x: Vertical asymptotes: 3. Plot several points in 4. Sketch one branch and repeat. Example: Tangent Function

19 Graph of the Cotangent Function
To graph y = cot x, use the identity At values of x for which sin x = 0, the cotangent function is undefined and its graph has vertical asymptotes. y x Properties of y = cot x vertical asymptotes 1. domain : all real x 2. range: (–, +) 3. period:  4. vertical asymptotes:

20 Graph of the Secant Function
The graph y = sec x, use the identity At values of x for which cos x = 0, the secant function is undefined and its graph has vertical asymptotes. y x Properties of y = sec x 1. domain : all real x 2. range: (–,–1]  [1, +) 3. period:  4. vertical asymptotes: Secant Function

21 Graph of the Cosecant Function
To graph y = csc x, use the identity At values of x for which sin x = 0, the cosecant function is undefined and its graph has vertical asymptotes. x y Properties of y = csc x 1. domain : all real x 2. range: (–,–1]  [1, +) 3. period:  4. vertical asymptotes: where sine is zero. Cosecant Function

22 Y = -9sinx 9 90 180 270 360 -9 “Opposite” to Sin x

23 Y = sin 2x Period of graph is 1800
90 180 270 360 -1 Period of graph is 1800 There are 2 cycles between 00 and 3600

24 Combining these rules Draw y = 6sin2x Y = 6sin 2x Max 6 2 cycles
Min -6 Period = 360 ÷ 2 = 1800 6 Y = 6sin 2x 90 180 270 360 -6

25 Recognising Graph Y = 8cos4x Max 8 4 cycles Cosine Min -8 8 90 180 270
90 180 270 360 -8

26 Combining our two rules Draw y = 8sin2x
Max 8 2 cycles Min -8 Period = 360 ÷ 2 = 1800 8 Y = 8sin 2x 90 180 270 360 -8


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