Alg2.6 Trigonometric Functions

Lesson 1

  • I can use the Pythagorean Theorem to find coordinates of points on a circle centered at the origin.
  • I understand that a periodic function is one with outputs that repeat at regular intervals.

Lesson 2

  • I understand how to use trigonometry to express the coordinates of a point in quadrant 1 that is 1 unit away from the origin.

Lesson 3

  • I understand that a radian angle measurement is the ratio of the arc length to the radius of the circle.
  • I understand that points on a unit circle can be defined by their coordinates or by an angle of rotation.

Lesson 4

  • I can find different angles on the unit circle and estimate their coordinates.

Lesson 5

  • I can use the Pythagorean Identity to calculate values of coordinates given one coordinate to start from.
  • I understand that the coordinates of a point on the unit circle at $\theta$ radians can be written as $(\cos(\theta),\sin(\theta))$.

Lesson 6

  • I can use the Pythagorean Identity to find the values of cosine, sine, and tangent of an angle if I know one of them and the quadrant of the angle.

Lesson 7

  • I can use cosine and sine to figure out information about points rotating in circles.

Lesson 8

  • I understand that the graph of a periodic function can look like a wave whose outputs repeat between the same maximum and minimum values.

Lesson 9

  • I can use the coordinates of points on the unit circle to graph the cosine and sine functions.

Lesson 10

  • I understand how to find the values of cosine and sine for inputs greater than $2\pi$ radians.

Lesson 11

  • I understand how to find the values of cosine and sine for inputs less than 0 radians.

Lesson 12

  • I can explain why the tangent function has a period of $\pi$.
  • I understand why the graph of tangent has asymptotes.

Lesson 13

  • I can write a trigonometric function to represent situations with different amplitudes and midlines.

Lesson 14

  • I can graph a horizontal translation of a trigonometric function.
  • I can use the amplitude and midline of a trigonometric equation to describe a situation.

Lesson 15

  • I can identify the midline, amplitude, and horizontal translation of a trigonometric function given a graph or equation.

Lesson 16

  • I can find the period of a trigonometric function using an equation or graph.

Lesson 17

  • I can ask questions to figure out how a trigonometric function was transformed.
  • I can create an equation of a trigonometric function using information about its graph.

Lesson 18

  • I can represent a circular motion situation using a graph and an equation.

Lesson 19

  • I can create a model of data that is approximately periodic and use the model to make predictions.