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Published byMarcus Atkinson Modified over 9 years ago
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Graphing Cotangent
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Objective To graph the cotangent
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y = cot x Recall that –cot =. –cot is undefined when y = 0. –y = cot x is undefined at x = 0, x = and x = 2 .
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Domain/Range of Cotangent Function Since the function is undefined at every multiple of , there are asymptotes at these points. Graphs must contain the dotted asymptote lines. These lines will move if the function contains a horizontal shift, stretch or shrink. There are asymptotes at every multiple of . The domain is (- , except k ) The range of every cot graph is (- , ).
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Period of the Function This means that one complete cycle occurs between zero and . The period is .
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Max and Min Cotangent Function Range is unlimited; there is no maximum. Range is unlimited; there is no minimum.
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Parent Function Key Points x = 0: asymptote. The graph approaches as it approaches this asymptote. x = : asymptote. The graph approaches - as it approaches this asymptote.
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Graph of Parent Function y = cot x
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The Graph: y = a cot b(x-c) +d a = vertical stretch or shrink If |a| > 1, there is a vertical stretch. If 0 < |a| < 1, there is a vertical shrink. If a is negative, the graph reflects about the x-axis.
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y = 4 cot x
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The Graph: y = a cot b (x-c) +d b= horizontal stretch or shrink. Period =. If |b| > 1, there is a horizontal shrink. If 0 < |b| < 1, there is a horizontal stretch.
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y = cot 2x
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The Graph: y = a cot b(x- c ) +d c = horizontal shift. If c is negative, the graph shifts left c units. If c is positive, the graph shifts right c units.
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y = cot (x - )
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The Graph: y = a cot b(x-c) + d d= vertical shift. If d is positive, the graph shifts up d units. If d is negative, the graph shifts down d units.
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y = cot x - 4
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To find the asymptotes
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y = cot ( 2 x + ) + 2
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y = - 2cot ( ½ x - ) - 3
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