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notes/education/math/MATH1060 (trig)/Graphing.md
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Sine/Cosine

A graph of sine and cosine

Given the above graph:

  • At the origin, sin(x) = 0 and cos(x) = 1
  • A full wavelength takes 2\pi

Manipulation

Formula Movement
y = cos(x) - 1 Vertical shift down by 1
y = 2cos(x) Vertical stretch by a factor of 2
y = -cos(x) Flip over x axis
y = cos(2x) Horizontal shrink by a factor of 2

Periodic Functions

A function is considered periodic if it repeats itself at even intervals, where each interval is a complete cycle, referred to as a period.

Sinusoidal Functions

A function that has the same shape as a sine or cosine wave is known as a sinusoidal function.

There are 4 general functions:

$$A * sin(B*x - C) + D$$ y = A * cos(B*x -c) + D$$
y = A * sin(B(x - \frac{C}{B})) + D y = A*cos(B(x - \frac{C}{B})) + D$$

How to find the:

  • Amplitude: |A|
  • Period: \frac{2\pi}{B}
  • Phase shift: \frac{C}{|B|}
  • Vertical shift: D
 y = A * \sin(B(x-\frac{C}{B}))

Tangent

 y = tan(x)

Graph of tangent To find relative points to create the above graph, you can use the unit circle:

If tan(x) = \frac{sin(x)}{cos(x}), then:

sin(0) = 0 cos(0) = 1 tan(0) = \frac{cos(0)}{sin(0)} = \frac{0}{1} =0
sin(\frac{\pi}{4}) = \frac{\sqrt{2}}{2} cos(\frac{\pi}{4}) = \frac{\sqrt{2}}{2} tan(\frac{\pi}{4}) = \frac{\sqrt{2}}{2}/\frac{\sqrt{2}}{2} = 1
sin(\frac{\pi}{2}) = 1 cos(\frac{\pi}{2}) = 0 tan(\frac{\pi}{2}) = \frac{1}{0} = DNF
Interpreting the above table:
  • When x = 0, y = 0
  • When x = \frac{\pi}{4}, y = 1
  • When x = \frac{\pi}{2}, there's an asymptote

Without any transformations applied, the period of tan(x) = \pi. Because tan is an odd function, tan(-x) = -tan(x).

Cotangent

 y = cot(x)

Graph of cotangent

To find relative points to create the above graph, you can use the unit circle:

If cot(x) = \frac{cos(x)}{sin(x)}, then:

sin(0) = 0 cos(0) = 1 cot(0) = \frac{sin(0)}{cos(0)} = \frac{1}{0} = DNF
sin(\frac{\pi}{4}) = \frac{\sqrt{2}}{2} cos(\frac{\pi}{4}) = \frac{\sqrt{2}}{2} cot(\frac{\pi}{4}) = \frac{\sqrt{2}}{2}/\frac{\sqrt{2}}{2} = 1
sin(\frac{\pi}{2}) = 1 cos(\frac{\pi}{2}) = 0 tan(\frac{\pi}{2}) = \frac{1}{0} = DNF

Without any transformations applied, the period of cot(x) = \pi. Because cot is an odd function, cot(-x) = -cot(x).

Features of Tangent and Cotangent

Given the form y = A\tan(Bx - C) + D (the same applies for \cot)

  • The stretching factor is |A|
  • The period is \frac{\pi}{|B|}
  • The domain of tan is all of x, where x \ne \frac{C}{B} + \frac{\pi}{2} + {\pi}{|}

Examples

Given -2tan(\pi*x + \pi) - 1

  • A = -2, B = \pi, C = -\pi, D = -1
  • Stretch