PreCalculus - Santowski 1 Lesson 27: Angles in Standard Position PreCalculus - Santowski 6/28/2016.

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Presentation transcript:

PreCalculus - Santowski 1 Lesson 27: Angles in Standard Position PreCalculus - Santowski 6/28/2016

QUIZ Draw the following angles in standard position 50° 130° 230° 320° 770° -50° 2 radians 6/28/2016 PreCalculus - Santowski 2

3 Fast Five – Opening Exercises 3 Evaluate sin(50°)  illustrate with a diagram Evaluate sin(130°)  Q  How can a right triangle have a 130° angle? Evaluate sin(230°)  illustrate with a diagram?? Q  How can a right triangle have a 230° angle? Evaluate sin(320°)  illustrate with a diagram?? Evaluate sin(770°)  illustrate with a diagram?? Evaluate sin(-50°)  illustrate with a diagram?? Q  How can a right triangle have a -50° angle? Use your calculator and graph the function f(x) = sin(x) on the domain - 720° < x < 720° 6/28/2016

BIG PICTURE The first of our keys ideas as we now start our Trig Functions Unit: (1) How do we use current ideas to develop new ones 6/28/2016 PreCalculus - Santowski 4

BIG PICTURE The first of our keys ideas as we now start our Analytical Trig Unit: (1) How do we use current ideas to develop new ones  We will use RIGHT TRIANGLES and CIRCLES to help develop new understandings 6/28/2016 PreCalculus - Santowski 5

BIG PICTURE The second of our keys ideas as we now start our Analytical Trig Unit: (2) What does a TRIANGLE have to do with SINE WAVES 6/28/2016 PreCalculus - Santowski 6

BIG PICTURE The second of our keys ideas as we now start our Analytical Trig Unit: (2) What does a TRIANGLE have to do with SINE WAVES  How can we REALLY understand how the sine and cosine ratios from right triangles could ever be used to create function equations that are used to model periodic phenomenon 6/28/2016 PreCalculus - Santowski 7

8 (A) Angles in Standard Position 8 Angles in standard position are defined as angles drawn in the Cartesian plane where the initial arm of the angle is on the x axis, the vertex is on the origin and the terminal arm is somewhere in one of the four quadrants on the Cartesian plane 6/28/2016

PreCalculus - Santowski 9 (A) Angles in Standard Position 9 To form angles of various measure, the terminal arm is simply rotated through a given angle 6/28/2016

PreCalculus - Santowski 10 (A) Angles in Standard Position We will divide our Cartesian plane into 4 quadrants, each of which are a multiple of 90 degree angles 6/28/2016

PreCalculus - Santowski 11 (A) Coterminal Angles Coterminal angles share the same terminal arm and the same initial arm. As an example, here are four different angles with the same terminal arm and the same initial arm. 6/28/2016

PreCalculus - Santowski 12 (A) Principle Angles and Related Acute Angles The principal angle is the angle between 0° and 360°. The coterminal angles of 480°, 840°, and 240° all share the same principal angle of 120°. The related acute angle is the angle formed by the terminal arm of an angle in standard position and the x- axis. The related acute angle is always positive and lies between 0° and 90°. 6/28/2016

PreCalculus - Santowski 13 (B) Examples 6/28/2016

PreCalculus - Santowski 14 (B) Examples 6/28/2016

PreCalculus - Santowski 15 (B) Examples 6/28/2016

PreCalculus - Santowski 16 (B) Examples 6/28/2016

(B) Examples For the given angles, determine: (a) the principle angle (b) the related acute angle (or reference angle) (c) the next 2 positive and negative co-terminal angles 6/28/2016 PreCalculus - Santowski 17

PreCalculus - Santowski 18 (C) Ordered Pairs & Right Triangle Trig To help discuss angles in a Cartesian plane, we will now introduce ordered pairs to place on the terminal arm of an angle 6/28/2016

PreCalculus - Santowski 19 (C) Ordered Pairs & Right Triangle Trig So to revisit our six trig ratios now in the context of the xy co- ordinate plane: We have our simple right triangle drawn in the first quadrant 6/28/2016

PreCalculus - Santowski 20 (C) Ordered Pairs & Right Triangle Trig Point P (-3, 4) is on the terminal arm of an angle, θ, in standard position. (a) Sketch the principal angle, θ and show the related acute/reference angle (b) Determine the values of all six trig ratios of θ. (c) Determine the value of the related acute angle to the nearest degree and to the nearest tenth of a radian. (d) What is the measure of θ to the nearest degree and to the nearest tenth of a radian? 6/28/2016

PreCalculus - Santowski 21 (C) Ordered Pairs & Right Triangle Trig - Examples 6/28/2016

(C) Ordered Pairs & Right Triangle Trig - Examples Determine the angle that the line 2y + x = 6 makes with the positive x axis 6/28/2016 PreCalculus - Santowski 22