amplitude, reflection, and period trigonometry math 103 s. rook
TRANSCRIPT
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Amplitude, Reflection, and Period
TrigonometryMATH 103
S. Rook
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Overview
• Section 4.2 in the textbook:– Amplitude and Reflection– Period– Graphing y = A sin Bx or y = A cos Bx
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Amplitude and Reflection
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Amplitude
• If a given graph has both a minimum value m AND a maximum value M, then the amplitude is– Only the sine and cosine graphs
possess this property– The minimum and maximum
value for both y = cos x and y = sin x is -1 and 1 respectively
– Thus the amplitude for y = sin x and y = cos x is
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mM 2
1
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111
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Range of the Sine and Cosine Functions
• Recall that the range is the allowable set of y-values for a function– We just observed that the minimum value is -1
and the maximum value is 1 for y = sin x and y = cos x
i.e. -1 ≤ y ≤ 1
• For both y = sin x and y = cos x:– Domain: (-oo, +oo)– Range: [-1, 1]
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How Amplitude Affects a Graph
• The graphs of y = A sin x and y = A cos x are related to the graphs y = sin x and y = cos x:– Each y-coordinate of y = sin x or y = cos x is multiplied by A
to get the new functions y = A sin x or y = A cos x• E.g. (0, 1) on y = cos x would become (0, 5) on the graph
of y = 5 cos x
• Amplitude = |A|– Always positive– The maximum value is |A| and the minimum value is -|
A|– The range of y = A sin x or y = A cos x is then [-|A|, |A|]
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How Amplitude Affects a Graph (Continued)
• If 0 < A < 1y = A sin x or y = A cos x will be COMPRESSED in the y-direction as compared to y = sin x or y = cos x
• If A > 1y = A sin x or y = A cos x will be STRETCHED in the y-direction as compared to y = sin x or y = cos x
• The value of A affects ONLY the y-coordinate• The value of A does NOT affect the period– e.g. y = sin x and y = 4 sin x both have period 2π
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Graphing y = A sin x or y = A cos x
• To graph one cycle of y = A sin x or y = A cos x:– Divide the interval from 0 to 2π into 4 equal subintervals:
• The x-axis will be marked by increments of π⁄2
• The y-axis will have a minimum value of -|A| and a maximum value of |A|
• We can use so few points because we know the shape of the sine or cosine graph!
– Create a table of values • Based on the values labeled on the x-axis
– Connect the points to make the graph• Based on the shape of either the sine or cosine graph
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Amplitude (Example)
Ex 1: Sketch one complete cycle:
a) y = 3⁄4 sin x
b) y = 5 cos x
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Reflection
• If A < 0 y = A sin x or y = A cos x will be reflected about the x-axis• Recall that multiplying the y-coordinate of a point by a
negative value reflects the point over the x-axis– E.g. (3, 2) reflected over the x-axis becomes (3, -2)
Amplitude = |A|• Maximum value is still |A| and minimum value is still -|A|
• Repeat the EXACT same steps to graph y = A sin x or y = A cos x when A < 0
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Reflection (Example)
Ex 2: Sketch one complete cycle:y = -3 cos x
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Period
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Introduction to How the Argument Affects the Period
• Recall that informally the period is the smallest interval until the graph starts to repeat– The period of both y = sin x and y = cos x is 2π
• Now we will consider the effects of multiplying the argument (input) by a constant B– i.e. How is y = sin Bx or y = cos Bx different from
y = sin x or y = cos x?– Note that in the case of y = sin x or y = cos x, B = 1
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How Period Affects a Graph
• Consider graphing y = sin x, y = sin 2x, and y = sin 4x using a table of values– Notice that, on the interval 0 to 2π, y = sin x makes 1
cycle, y = sin 2x makes 2 cycles, and y = sin 4x makes 4 cycles
– The period of y = sin x is 2π, the period of y = sin 2x is π, and the period of y = sin 4x is π⁄2
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How Period Affects a Graph (Continued)
• To establish a relationship between y = sin x and y = sin Bx or y = cos x and y = cos Bx:– When B = 1, the graph makes 1 cycle in the interval 0 to 2π
and the period is 2π
– When B = 2, the graph makes 2 cycles in the interval 0 to 2π and the period is π
(divide by 2)– When B = 4, the graph makes 4 cycles in the interval 0 to
2π and the period is π⁄2
(divide by 4)15
20 x
xx 0220
20240
xx
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Relationship Between B and Period
• Therefore, for y = sin Bx or y = cos Bx:
• To graph one cycle, we repeat the same steps for graphing y = A sin x or y = A cos x EXCEPT:– The period may NOT necessarily be 2π– Divide the interval between 0 and the period into 4 equal
subintervals• 4 is not a “magic number” but an easy number to utilize in the
calculations – will always get 0, π⁄2, π, 3π⁄2, 2π
• The value of B affects ONLY the x-coordinate• The value of B does NOT affect the amplitude
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BBxBx
2Period
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Period (Example)
Ex 3: Sketch one complete cycle:y = cos 2x
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Graphing y = A sin Bx or y = A cos Bx
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Graphing y = A sin Bx or y = A cos Bx
• Given y = A sin Bx or y = A cos Bx:|A| is the amplitude is the period
• To graph y = A sin Bx or y = A cos Bx:– Calculate the amplitude and period– Graph one cycle by dividing the interval from 0 to the period
into 4 equal subintervals• We will discuss intervals OTHER THAN 0 to the period when we
discuss phase shift in the next lesson• Textbook refers to this as “Constructing a Frame”
– Extend the graph as necessary
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B
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Graphing y = A sin Bx or y = A cos Bx (Example)
Ex 4: Graph over the given interval:
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43 ,sin2 xxy
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Graphing y = A sin Bx or y = A cos Bx (Example)
Ex 5: Give the amplitude and period of the graph:
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Summary
• After studying these slides, you should be able to:– Graph a sine or cosine function for any amplitude and
period– Identify the amplitude and period of a sine or cosine
graph
• Additional Practice– See the list of suggested problems for 4.2
• Next lesson– Vertical Translation and Phase Shift (Section 4.3)
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