notes 4-8
TRANSCRIPT
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Section 4-8Translation Images of Circular (Trig) Functions
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Warm-upDescribe the transformation for each of the
following equations, as based on the parent equation of y = sin x.
1. y = sin(x + 14) 2. y = sin x + 14
3. y = sin x - 14 4. y = sin(x - 14)
Shifted 14 units left Shifted 14 units up
Shifted 14 units down Shifted 14 units right
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Phase Shift
The smallest positive or largest negative number used in a horizontal translation for a sine or cosine
wave
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Example 1a. Graph two cycles of the following function
y = cos x − π
2( )b. What is the phase shift of this function when
compared to the parent function y = cos x?
π2
...to the right
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c. What is the phase shift when compared to y = sin x?
It IS y = sin x
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TheoremWe can rewrite some of these phase shifts quite
easily:
sin: cos:+ + - - + - - +
Just follow these patterns
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Example 2Find another possible equation for each function
listed below.
a. y = cos π
2− x( )
b. y = sin x − π( )+ + - -
y = sin x
- - + +
y = -sin x
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Example 3Compare the following graphs.
y = sinx
Phase shift:
Vertical Shift: 2
−
5π6
y = sin x + 5π
6( ) + 2
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Example 4Compare the following graphs:
y = tanx y = −1 + tanx
There was a vertical shift of -1
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In phase:
Out-of-phase:
Inductance:
When voltage and current flow coincide with each other
When the current is behind the voltage
When current flow is out-of-phase
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Example 5In question 14 from section 4-7, AC current y was
modeled with the equation
y = 10 sin 120πx( )
where x is time in seconds. Maximum inductance occurs when the voltage leads the current by
seconds. What is an equation for the current in the new model?
π2
y = 10 sin 120π x −
π2
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Homework
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