1. Inverse Trig. Functions & Differentiation Section 5.8

2. Here, you can see that the sine function y = sin x is not one-to-one. –Use the Horizontal Line Test. INVERSE TRIGONOMETRIC FUNCTIONS

3. However, here, you can see that the function f(x) = sin x,, is one-to-one. INVERSE TRIGONOMETRIC FUNCTIONS

4. As the definition of an inverse function states that we have: Thus, if -1 ≤ x ≤ 1, sin -1 x is the number between and whose sine is x. INVERSE SINE FUNCTIONSEquation 1

5. Evaluate: a. b. INVERSE SINE FUNCTIONSExample 1

6. Solve.

8. We have: –This is because, and lies between and. Example 1 aINVERSE SINE FUNCTIONS

9. Let, so. –Then, we can draw a right triangle with angle θ. –So, we deduce from the Pythagorean Theorem that the third side has length. Example 1 bINVERSE SINE FUNCTIONS

10. –This enables us to read from the triangle that: INVERSE SINE FUNCTIONSExample 1b

11. In this case, the cancellation equations for inverse functions become: INVERSE SINE FUNCTIONSEquations 2

12. The graph is obtained from that of the restricted sine function by reflection about the line y = x. INVERSE SINE FUNCTIONS

13. We know that: –The sine function f is continuous, so the inverse sine function is also continuous. –The sine function is differentiable, so the inverse sine function is also differentiable (from Section 3.4). INVERSE SINE FUNCTIONS

14. since we know that is sin -1 differentiable, we can just as easily calculate it by implicit differentiation as follows. INVERSE SINE FUNCTIONS

15. Let y = sin -1 x. –Then, sin y = x and –π/2 ≤ y ≤ π/2. –Differentiating sin y = x implicitly with respect to x,we obtain: INVERSE SINE FUNCTIONS

16. Now, cos y ≥ 0 since –π/2 ≤ y ≤ π/2, so INVERSE SINE FUNCTIONSFormula 3

17. If f(x) = sin -1 (x 2 – 1), find: (a) the domain of f. (b) f ’(x). INVERSE SINE FUNCTIONSExample 2

18. Since the domain of the inverse sine function is [-1, 1], the domain of f is: INVERSE SINE FUNCTIONSExample 2 a

19. Combining Formula 3 with the Chain Rule, we have: Example 2 bINVERSE SINE FUNCTIONS

20. The inverse cosine function is handled similarly. –The restricted cosine function f(x) = cos x, 0 ≤ x ≤ π, is one-to-one. –So, it has an inverse function denoted by cos -1 or arccos. INVERSE COSINE FUNCTIONSEquation 4

21. The cancellation equations are: INVERSE COSINE FUNCTIONSEquation 5

22. The inverse cosine function,cos -1, has domain [-1, 1] and range, and is a continuous function. INVERSE COSINE FUNCTIONS

23. Its derivative is given by: –The formula can be proved by the same method as for Formula 3. INVERSE COSINE FUNCTIONSFormula 6

24. The inverse tangent function, tan -1 = arctan, has domain and range. INVERSE TANGENT FUNCTIONS

25. We know that: –So, the lines are vertical asymptotes of the graph of tan. INVERSE TANGENT FUNCTIONS

26. The graph of tan -1 is obtained by reflecting the graph of the restricted tangent function about the line y = x. –It follows that the lines y = π/2 and y = -π/2 are horizontal asymptotes of the graph of tan -1. INVERSE TANGENT FUNCTIONS

27. Inverse Trig. Functions None of the 6 basic trig. functions has an inverse unless you restrict their domains.

28. Function Domain Range y = arcsin x -1< x < 1 I & IV y = arccos x -1< x < 1 I & II y = arctan x < x < I & IV y= arccot x < x < I & I y = arcsec x I & II y = arccsc I & IV

29. The Inverse Trigonometric Functions Graphs of six inverse trigonometric functions :

30. The Inverse Trigonometric Functions Graphs of six inverse trigonometric functions :

31. Inverse Properties f (f –1 (x)) = x and f –1 (f (x)) = x Remember that the trig. functions have inverses only in restricted domains.

32. Table 11DERIVATIVES

33. Derivatives of Inverse Trig. Functions Let u be a differentiable function of x.

35. Each of these formulas can be combined with the Chain Rule. For instance, if u is a differentiable function of x, then DERIVATIVES

36. Differentiate: DERIVATIVESExample 5

37. DERIVATIVESExample 5 a

38. DERIVATIVESExample 5 b

39. Find each derivative with respect to x.

41. Find each derivative with respect to the given variable.

43. Example 1

44. Example 2

51. Some homework examples: Write the expression in algebraic form Solution: Use the right triangle Now using the triangle we can find the hyp. Let then y 3x 1

52. Some homework examples: Find the derivative of: Let u =

53. Example

55. Find an equation for the line tangent to the graph of at x = -1 At x = -1 Slope of tangent line When x = -1, y =