Euclidean geometry and trigonometry

1. Euclidean geometry and trigonometry y Euclidean geometry means flat space sine and cosine ACME 1 q x Calculating Trigonometric identities

2. Euclidean geometry (1) Line segment A B (2) Extend line segment into line D C F E (5) Parallel postulate (4) All right angles are equal (3) Use line segment to define circle

3. Euclidean geometry: Flat space Non-embeddable spaces (Cannot be drawn as rippled surfaces in higher-dimensional flat spaces) Flat Curved (5) Parallel postulate

4. Euclidean geometry: Pythagorean theorem b c a

5. Euclidean geometry: Pythagorean theorem Want to show a2 + b2 = c2 c2 b2 b c a a2

6. Euclidean geometry: Pythagorean theorem Want to show a2 + b2 = c2 c b (a - b)2 + 4ab/2 = c2 ab/2 a2 -2ab + b2 + 2ab = c2 a ab/2 a2 + b2 = c2 a- b b (a– b)2 ab/2 ab/2

7. Euclidean geometry and trigonometry y Euclidean geometry means flat space sine and cosine ACME 1 q x Calculating Trigonometric identities

8. Trigonometry: sine and cosine y 1 q q x

9. Trigonometry: sine and cosine y ACME 1 y = sin(q) q x x = cos(q)

10. Trigonometry: sine and cosine y 1 x 0 -1

11. Trigonometry: sine and cosine 1 0 -1

12. Euclidean geometry and trigonometry y Euclidean geometry means flat space sine and cosine ACME 1 q x Calculating Trigonometric identities

13. Trigonometry: Want to approximate 1 ACME 1 1 1 1 1 1 1

14. Trigonometry: Want to approximate 1 1 1

15. Trigonometry: Want to approximate 1 1 x 1/2 1/2 1

16. Trigonometry: Want to approximate 1 1 x 1 1/2 1/2 1/2

17. Trigonometry: Want to approximate 1 1/2

18. Trigonometry: Want to approximate 1 y 1/2 STOP 1

19. Trigonometry: Sine! ACME Sine! 1 sine, Co Sine! 4 . 3 1 1 5 9!

20. Trigonometry: sine and cosine 1 0 30° 45° 60° 90° 0.524 0.785 1.047 1.571 2.094 120° 2.356 135° 2.618 150° 3.142 180° 3.665 210° 3.927 225° 4.189 240° 4.712 270° 5.236 300° 5.498 315° 5.760 330° 6.283 360° -1

21. Euclidean geometry and trigonometry y Euclidean geometry means flat space sine and cosine ACME 1 q x Calculating Trigonometric identities

22. Trigonometry: sine and cosine in terms of right triangles y 1 y = sin(q) q x x = cos(q)

23. Trigonometry: sine and cosine in terms of right triangles q r 1 R r sin(q) sin(q) Rsin(q) q rcos(q) Rcos(q) cos(q) q

24. Proving identities: Pythagorean identity Pythagorean identity 1 sin(q) q cos(q) STOP

25. Proving identities: Angle addition formula Want to show 1 x h

26. Proving identities: Angle addition formula Want to show