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A detailed tutorial on finding the reference angle. Step by step tutorial with several examples of how to find the reference angle for reference.

The reference angle is something you run into in precalculus and calculus. The reference angle is only used when working with radian measure, which while being more precise than degree notation, can sometimes be difficult to figure out and out into something you can use when solving an equation. The reference angle uses the unit circle, which has four points of 0, pi/2, pi, 3pi/2, and 2pi. When calculating an angle that is not exact, you place it on your unti circle and find the closest of those points. Subtract them. This is your reference angle.

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A detailed tutorial on the solving of the graph of the cosine function. Step by step tutorial including several examples of how to solve the graph of the cosine function for reference.

Graphing the cosine function is not difficult, but there are a few steps you need to follow. The first is, you need to find all the different points on the graph. You do this by taking a unit circle and using radians and reference points to find all of your coordinates. Then plot your points on the graph, and “connect the dots”. The graph of the sine function should resemble a “wave” That simply goes down once in a big loop and comes back up again.

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A detailed tutorial on the solving of the graph of the sine function. Step by step tutorial including several examples of how to solve the graph of the sine function for reference.

Graphing the sine function is not difficult, but there are a few steps you need to follow. The first is, you need to find all the different points on the graph. You do this by taking a unit circle and using radians and reference points to find all of your coordinates. Then plot your points on the graph, and “connect the dots”. The graph of the sine function has points at (0, 0), (pi/2, 1), (pi, 0), (3pi/2, -1), and (2, 0). The x-coordinates are all the main points around the circle while the y-cooridnates are your reference points. The graph of the sine function should resemble a “wave” that starts at the origin and travels in curves going both up and down.