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4.5 Graphs of Trigonometric Functions 2014 Digital Lesson.

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Presentation on theme: "4.5 Graphs of Trigonometric Functions 2014 Digital Lesson."— Presentation transcript:

1 4.5 Graphs of Trigonometric Functions 2014 Digital Lesson

2 HWQ Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 2

3 3 Sine Function Graph of the Sine Function To sketch the graph of y = sin x first locate the key points. These are the maximum points, the minimum points, and the intercepts. To locate the key points, divide the period by 4. sin x 0x Then, connect the points on the graph with a smooth curve that extends in both directions beyond the five points. A single cycle is called a period. y x y = sin x

4 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 4 Cosine Function Graph of the Cosine Function To sketch the graph of y = cos x first locate the key points. These are the maximum points, the minimum points, and the intercepts. cos x 0x Then, connect the points on the graph with a smooth curve that extends in both directions beyond the five points. A single cycle is called a period. y x y = cos x

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

6 General Forms for Sine and Cosine a is amplitude b represents the speed of the cycle. Period is represents the phase shift (horizontal shift) d represents the vertical shift.

7 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 7 Amplitude 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 = – 4 sin x reflection of y = 4 sin x y = 4 sin x y = 2sin x y = sin x

8 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 8 y x Period of a Function period: 2 period: 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. For b  0, the period of y = a cos bx is also. If 0 < b < 1, the graph of the function is stretched horizontally. If b > 1, the graph of the function is shrunk horizontally. y x period: 2 period: 4

9 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 9 y x Example: y = 3 cos x Example: Sketch the graph of y = 3 cos x on the interval [– , 4  ]. Partition the interval [0, 2  ] into four equal parts. Find the five key points; graph one cycle; then repeat the cycle over the interval. (0, 3) (, 0) (, 3) (, –3) Start of one cycle End of one cycle

10 x y 0.5 -0.5 1

11 x y 1 2 -2

12 x y 1 2 -2

13 Even and Odd Trig Functions Remember: if f(-t) = f(t) the function is even if f(-t) = - f(t) the function is odd The cosine and secant functions are EVEN. cos(-t)=cos t sec(-t)=sec t The sine, cosecant, tangent, and cotangent functions are ODD. sin(-t)= -sin tcsc(-t)= -csc t tan(-t)= -tan tcot(-t)= -cot t (1, 0)(–1, 0) (0,–1) (0,1) x y x

14 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 14 y x y = cos (–x) Graph y = f(-x) Use basic trigonometric identities to graph y = f (–x) Example 1: Sketch the graph of y = sin (–x). Use the identity sin (–x) = – sin x The graph of y = sin (–x) is the graph of y = sin x reflected in the x-axis. Example 2: Sketch the graph of y = cos (–x). Use the identity cos (–x) = cos x The graph of y = cos (–x) is identical to the graph of y = cos x. y x y = sin x y = sin (–x) y = cos (–x)

15 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 15 y x 0 20 –2 0y = –2 sin 3x 0 x Example: y = 2 sin(-3x) Example: Sketch the graph of y = 2 sin (–3x). Rewrite the function in the form y = a sin bx with b > 0 amplitude: |a| = |–2| = 2 Calculate the five key points. (0, 0) (, 0) (, 2) (, -2) (, 0) Use the identity sin (– x) = – sin x: y = 2 sin (–3x) = –2 sin 3x Start: End:

16 x y

17 Homework pg. 294 1-11odd, 39-55 odd

18 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 18 y x Tangent Function Graph of the Tangent Function 2. range: (– , +  ) 3. period:  4. vertical asymptotes: 1. domain : all real x Properties of y = tan x period: 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.

19 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 19 Example: Tangent Function 2. Find consecutive vertical asymptotes by solving for x: 4. Sketch one branch and repeat. Example: Find the period and asymptotes and sketch the graph of Vertical asymptotes: 3. Plot several points in 1. Period of y = tan x is. y x

20 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 20 Cotangent Function Graph of the Cotangent Function 2. range: (– , +  ) 3. period:  4. vertical asymptotes: 1. domain : all real x Properties of y = cot x y x vertical asymptotes 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.

21 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 21 y x Secant Function Graph of the Secant Function 2. range: (– ,–1]  [1, +  ) 3. period:  4. vertical asymptotes: 1. domain : all real x The graph y = sec x, use the identity. Properties of y = sec x At values of x for which cos x = 0, the secant function is undefined and its graph has vertical asymptotes.

22 Copyright © by Houghton Mifflin Company, Inc. All rights reserved. 22 x y Cosecant Function Graph of the Cosecant Function 2. range: (– ,–1]  [1, +  ) 3. period:  where sine is zero. 4. vertical asymptotes: 1. domain : all real x To graph y = csc x, use the identity. Properties of y = csc x At values of x for which sin x = 0, the cosecant function is undefined and its graph has vertical asymptotes.


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