e-learning
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E-learning. extended learning for chapter 11 (graphs). Let’s recall first. Graph of y = sin . Note: max value = 1 and min value = -1. Graph of y = sin . Graph of y = sin . - PowerPoint PPT PresentationTRANSCRIPT
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E-learning
extended learning for chapter 11 (graphs)
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Let’s recall first
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Graph of y = sin
Graph of y = sin
Note: max value = 1 and min value = -1
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Graph of y = sin
Graph of y = sin
The graph will repeats itself for every 360˚. The length of interval which the curve repeats is call the period.
Therefore, sine curve has a period of 360˚.
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Graph of y = sin
Graph of y = sin 2
2
- 2
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Graph of y = sin
In general, graph of y = sin a
a
- a
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Graph of y = cos
Note: max value = 1 and min value = -1
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Graph of y = cos 3
3
- 3
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In general, graph of y = cos a
a
- a
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Graph of y = cos
The graph will repeats itself for every 360˚.
Therefore, cosine curve has a period of 360˚.
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Graph of y = tan
Note: The graph is not continuous. There are break at 90˚ and 270˚. The curve approach the line at 90˚ and 270˚. Such lines are called asymptotes.
45˚ 225˚
135˚ 315˚
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In general, graph of y = tan a
a
- a
Note: The graph does not have max and min value.
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y = tan
y = sin
y = cos
Summary
Identify the 3 types of graphs:
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Points to consider when sketchingtrigonometrical functions:
• Easily determined points:a) maximum and minimum pointsb) points where the graph cuts the axes
• Period of the function
• Asymptotes (for tangent function)14
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Let’s continue learning..
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Example 1:Sketch y = 4sin x (given y = sin x ) for 0° x 360°
y = sin x
y = 4sin x
> x
x
xx
xx
x
xx x x
Comparing the 2 graphs, what happens to the max and min point of y = 4 sin x?
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Example 2:Sketch y = 4 + sin x for 0° x 360°
y = sin x
y = 4 + sin x
> xx
x
x
x
x
x
x
x
x
x
Spot the difference between y = 4 sin x and y = 4 + sin x and write down the answer.
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Example 3:Sketch y = - sin x for 0° x 360°
y = - sin x
> x
Reflection of y = sin x in x axis
x
x
x
x
x
x
x
xxx
y = sin x
How do we gety = - sin x graph from y = sin x?
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Example 4:Sketch y = 4 - sin x for 0° x 360°
> x
y = 4 + (- sin x)
1. Reflection of y = sin x in x axis
2. Translation of y = -sin x by 4 units along y axis
x
x
x
xx
y = - sin x
y = sin x
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Example 5:Sketch y = |sin x| for 0° x 360°
y = |sin x|
> x
y = sin x
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Example 6:Sketch y = -|sin x| for 0° x 360°
> x
y = -|sin x|
1. Reflection of y = |sin x| in x axis
y = |sin x|
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Sketch y = -5cos x for 0° x 360°
y = cos x y = 5cos x y = -5cos x
5
-5
Reflection about x axis
x
x
x
x
x
x
Example 7
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Sketch y = 3 + tan x for 0° x 360°
y = tan x y = 3 + tan x
x
x
x
x
xx
x
x
Example 8
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Sketch y = 2 – sin x, for values of x between 0° x 360°
y = sin x y = - sin x y = 2 – sin x
Example 9
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Sketch y = 1 – 3cos x for values of x between 0° x 360°
y = 3 cos x y = - 3 cos x y = 1 – 3 cos x
y = 3 cos x
y = cos x
Example 10
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Sketch y = |3cos x| for values of x between 0° x 360°
y = 3 cos x y = |3 cos x|
Example 11
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Sketch y = |3 sin x| - 2 for values of x between 0° x 360°
y = 3 sin x y = |3 sin x| y = y = |3 sin x| - 2
y = 3 sin x
y = sin x
Example 12
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Sketch y = 2cos x -1 and y = -2|sin x| for values of x between0 x 360.
Hence find the no. of solutions 2cos x -1 = -2|sin x| in the interval.
Solution:
Answer:
No of solutions = 2
x x
y = 2cos x -1
y = -2|sin x|
Example 13
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x x
x x
Sketch y = |tan x| and y = 1 - sin x for values of x between0 x 360.
Hence find the no. of solutions |tan x| = 1 - sin x| in the interval.
Solution:
Answer:
No of solutions = 4
y = |tan x|
y = 1 - sin x
Example 14