# Difference between revisions of "Unit Circle - Essential Trigonometric Values"

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Finally, each '''<font color=#0033CC>blue</font>''' direction has coordinates with two different absolute values, <math style="vertical-align: -5px">\sqrt{3}/2</math>  and <math style="vertical-align: -5px">1/2</math>. These fill out the remaining multiples of <math style="vertical-align: -5px">\pi/6</math>, or those which are not already shown in red. | Finally, each '''<font color=#0033CC>blue</font>''' direction has coordinates with two different absolute values, <math style="vertical-align: -5px">\sqrt{3}/2</math>  and <math style="vertical-align: -5px">1/2</math>. These fill out the remaining multiples of <math style="vertical-align: -5px">\pi/6</math>, or those which are not already shown in red. | ||

− | It is important to realize that <math style="vertical-align: -5px">\sqrt{3}/2\,>\,1/2</math>, so whichever direction (<math style="vertical-align: 0px">x</math> or <math style="vertical-align: -4px">y</math>) seems smaller will take <math style="vertical-align: -5px">1/2</math> as the absolute value of its coordinate. | + | It is important to realize that <math style="vertical-align: -5px">\sqrt{3}/2\,>\,1/2</math>, so whichever direction (<math style="vertical-align: 0px">x</math> or <math style="vertical-align: -4px">y</math>) seems smaller will take <math style="vertical-align: -5px">1/2</math>  as the absolute value of its coordinate. |

− | As an example, consider the angle/direction <math style="vertical-align: -5px">\pi/6</math>. If we first consider the green diagonal at <math style="vertical-align: -5px">\pi/4</math>, where both coordinates share the same absolute value, we can see that the point on the unit circle at <math style="vertical-align: -5px">\pi/6</math> is to the right and below the diagonal. Thus, its <math style="vertical-align: 0px">x</math> coordinate is bigger than its <math style="vertical-align: -4px">y</math> coordinate, as can be seen in the image. | + | As an example, consider the angle/direction <math style="vertical-align: -5px">\pi/6</math>. If we first consider the green diagonal at <math style="vertical-align: -5px">\pi/4</math>, where both coordinates share the same absolute value, we can see that the point on the unit circle at <math style="vertical-align: -5.5px">\pi/6</math> is to the right and below the diagonal. Thus, its <math style="vertical-align: 0px">x</math> coordinate is bigger than its <math style="vertical-align: -4px">y</math> coordinate, as can be seen in the image. |

Also, recall that adding or subtracting the measure of a circle - either <math style="vertical-align: 0px">360^{\circ}</math> or <math style="vertical-align: 0px"> 2\pi</math> - does NOT change the direction we are heading. As such, the angles <math style="vertical-align: -4px">-2\pi,\,0,\,2\pi</math> and <math style="vertical-align: -1px">4\pi</math> all point in the direction of the positive <math style="vertical-align: 0px">x</math>-axis. We may call such angles '''coterminal'''. | Also, recall that adding or subtracting the measure of a circle - either <math style="vertical-align: 0px">360^{\circ}</math> or <math style="vertical-align: 0px"> 2\pi</math> - does NOT change the direction we are heading. As such, the angles <math style="vertical-align: -4px">-2\pi,\,0,\,2\pi</math> and <math style="vertical-align: -1px">4\pi</math> all point in the direction of the positive <math style="vertical-align: 0px">x</math>-axis. We may call such angles '''coterminal'''. |

## Revision as of 09:21, 12 July 2015

## Related Pairs for Sine and Cosine

Defined by the equation , the unit circle is the collection of points that lie one unit from the origin. For trigonometry, it relates directions, called out in degrees or radians, to their cosine and sine. We measure angles counterclockwise from the positive -axis, shown as or radians, and each ordered pair, such as , is both a point on the unit circle __ and__ the cosine and sine in that direction or angle. In the image, we have color coded points and directions which are related through absolute values.

Each **red** point of the unit circle lies on an axis, and has one coordinate of , and the other of absolute value . These are all a multiple of .

On the other hand, each point in a diagonal direction (shown in **green**) has a coordinate pair which are both in absolute value. These are all an odd multiple of .

Finally, each **blue** direction has coordinates with two different absolute values, and . These fill out the remaining multiples of , or those which are not already shown in red.

It is important to realize that , so whichever direction ( or ) seems smaller will take as the absolute value of its coordinate.

As an example, consider the angle/direction . If we first consider the green diagonal at , where both coordinates share the same absolute value, we can see that the point on the unit circle at is to the right and below the diagonal. Thus, its coordinate is bigger than its coordinate, as can be seen in the image.

Also, recall that adding or subtracting the measure of a circle - either or - does NOT change the direction we are heading. As such, the angles and all point in the direction of the positive -axis. We may call such angles **coterminal**.