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Mrs. Volynskaya Pre-Calculus Chapter 4 Trigonometry
. Mrs. Volynskaya Pre-Calculus Chapter 4 Trigonometry π½ 1 1 y π½ x -1 1 -1
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sin π = cos π = Since there is exactly one point P(x,y) for an angle π, the relations cos π = x and sin π = y are functions of π. Because both of these functions are defined using the unit circle, they are often called ________________. The four other trig functions can also be defined using the unit circle: tan π = csc π = sec π = cot π = π πππ πππππ ππ‘π βπ¦πππ‘πππ’π π π πππ ππππππππ‘ βπ¦πππ‘πππ’π π = π¦ 1 = π₯ 1 circular functions π πππ πππππ ππ‘π π πππ ππππππππ‘ = π¦ π₯ βπ¦πππ‘πππ’π π π πππ πππππ ππ‘π = π¦ βπ¦πππ‘πππ’π π π πππ ππππππππ‘ = 1 π₯ π πππ ππππππππ‘ π πππ πππππ ππ‘π = π₯ π¦
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Example 1: Use the unit circle to find each value.
a tan 180Β° tan 180Β° = π¦ π₯ sin = 0 sec = -1 tan 180Β° = 0 β1 cos = -1 cot = undefined csc = undefined tan 180Β° = 0 b csc (-90Β°) csc (-90Β°) = 1 π¦ sin β = -1 cot β = 0 csc (-90Β°) = β1 cos β = 0 tan β = undefined csc (-90Β°) = -1 sec β = undefined
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sin , csc cos, tan, sec, cot sin, cos, tan, sec, csc, cot none 0 1 90 120 60 135 45 150 30 -1 0 180 1 0 360 210 330 225 315 240 300 270 0 -1 tan, cot sin, cos, sec, csc cos, sec sin, tan, csc, cot
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** The reference angle would be 60Β°. Quad. II x is neg. & y is pos.
The radius of a circle is defined as a positive value. Therefore the signs of the six trig functions are determined by the signs of the coordinates of ___ and ___ in each quadrant. x y Example 2: Use the unit circle to find the values of the six trigonometric functions for a 300Β° angle. ** The reference angle would be 60Β°. Quad. II x is neg. & y is pos. Quad. I x & y are pos. ** The terminal side of the angle intersects the unit circle at a point. ** We need to find the coordinates of this point from our special triangles from Geometry. 300Β° Special Triangles Quad. III x & y are neg. Quad. IV x is pos. & y is neg. 30Β° - 60Β° - 90Β° 45Β° - 45Β° - 90Β° sin 60Β° = πππ. βπ¦πππ‘. = π₯ 3 2π₯ = 60Β° 45Β° 2x y 2 y x cos 60Β° = πππ. βπ¦πππ‘. = π₯ 2π₯ = 1 2 30Β° 45Β° The pt. is , β x 3 y
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** Now that we know the point on the terminal side that intersects the unit circle, we can
now find the 6 trig. functions ,β = sin 300Β° = y = 1 2 cos 300Β° = x = β tan 300Β° = π¦ π₯ = csc 300Β° = 1 π¦ = 1 β = = sec 300Β° = 1 π₯ = = 2 = β cot 300Β° = π₯ π¦ = =
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Trig Functions of an Angle in Standard Position
The sine and cosine functions of an angle in standard position may also be determined using the ordered pair of any point on its ________________ and the distance between that _______ and the_______. terminal side point origin P(x, y) r y x All six trig functions can be determined using x, y, and r. (π= π₯ 2 + π¦ 2 ) Trig Functions of an Angle in Standard Position sin π = π¦ π cos π = π₯ π tan π= π¦ π₯ csc π = π π¦ sec π= π π₯ cot π= π₯ π¦
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Example 3: Find the values of the six trigonometric functions for angle ο± in standard position if a point with coordinates (-6, 8) lies on its terminal side. ** 1st find r : r = (β6) r = 100 r = 10 sin π = π¦ π = = 4 5 sec π = π π₯ = β6 = cos π = π₯ π = β6 10 = cot π = π₯ π¦ = β6 8 = tan π = π¦ π₯ = 8 β6 = csc π = π π¦ = =
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If you know the value of one of the trig functions and the quadrant in which the terminal side lies in, you can find the other five trig functions. Example 4: Suppose ο± is an angle in standard position whose terminal side lies in Quadrant II. If csc ο± = , find the values of the remaining five trigonometric functions of ο±. 8 3 ** Since the point lies in Quad. II, x is neg. & y is pos. csc π = π π¦ , so r = 8 and y = 3 sin π = π¦ π = 3 8 Find x : π₯ 2 + π¦ 2 = π 2 cos π = π₯ π = β π₯ = 64 tan π = π¦ π₯ = 3 β = π₯ 2 = 55 x = Β± 55 sec π = π π₯ = 8 β = x has to be cot π = π₯ π¦ = β
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