MA 242 Review Exponential and Log Functions Notes for today s class can be found at

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1 MA 242 Review Exponential and Log Functions Notes for today s class can be found at

2 Example: If y = x n If y = x 2 then then dy dx = nxn 1 dy dx = 2x1 = 2x

3 Power Function

4 Exponential Function

5 Chromium-254 is a radioactive isotope with a half-life of approximately 1 month.

6 Chromium-254 is a radioactive isotope with a half-life of approximately 1 month. Let s suppose we begin with an 8 gram sample of chromium. After 1 month, we will be left with a 4 gram sample

7 Number of months Mass of chromium 0 8 grams 1 4 grams 2 2 grams 3 1 gram gram

8 Number of months Mass of chromium 0 8 grams = 4 grams = 2 grams = 1 gram = 1 2 gram

9 Number of months Mass of chromium 0 8 grams = 4 grams 2 8 ( 1 2) 2 = 2 grams 3 8 ( 1 3 2) = 1 gram 4 8 ( ) = 1 2 gram ( ) t 1 f(t) = 8 2

10 f(t) = 8 ( ) t 1 2

11 Giardia

12 The number of giardia organisms will quadruple every day

13 Number of days = = = 256 f(t) = 4 t Number of organisms

14 f (t) = 4t

15 Derivative of a Power Function: d dx (xn ) = nx n 1 Derivative of an Exponential Function: d dx (ax ) =????

16 f(x) = a x f f(x + h) f(x) (x) = lim h 0 h a x+h a x = lim h 0 h

17 f(x) = a x f f(x + h) f(x) (x) = lim h 0 h a x+h a x = lim h 0 h a x a h a x = lim h 0 h = a x a h 1 lim = a x k h 0 h

18 Derivative of a Power Function: d dx (xn ) = nx n 1 Derivative of an Exponential Function: d dx (ax ) = k a x

19 d dx (ax ) = k a x d dx (2x ) = (0.693)2 x d dx (3x ) = (1.099)3 x

20 d dx (2x ) = (0.693)2 x d dx (3x ) = (1.099)3 x d dx (ex ) = e x e =

21 y = e x dy dx = ex

22 Problem: If y = e sin x, find dy dx

23 Problem: If y = e sin x, find dy dx Let u = sin x so y = e u. According to the Chain Rule, dy dx = dy du du dx = eu du dx = esin x cos x

24 Generalization: d dx ( e f(x)) = e f(x) f (x)

25 Properties of exponential 1. e 0 = 1 2. e 1 = e 3. e u+v = e u e v 4. e u v = eu e v 5. (e u ) n = e nu d 6. dx (ex ) = e x ( ) e f(x) = e f(x) f (x) 7. d dx

26 Let x > 0 y = log b x means b y = x

27 ln x means log e x so y = ln x implies e y = x

28 Properties of exponential and logarithms 1. e 0 = 1 ln 1 = 0 2. e 1 = e ln e = 1 3. e u+v = e u e v ln(xy) = ln x + ln y 4. e u v = eu e ln x v y = ln x ln y 5. (e u ) n = e nu ln (x n ) = n ln x ( d 6. ) dx e f(x) = e f(x) f d (x) dx (ln x) = 1 x

29 If x > 0 then: d dx (ln x) = 1 x 1 dx = ln x + C x

30 Derivative Example: Let y = sin(ln x) Find dy dx

31 Let u = ln x so y = sin u Let y = sin(ln x) Find dy dx dy dx = dy du du dx = cos u 1 x = 1 x cos(ln x)

32 Similar Derivative Example: Let y = ln(sin x) Find dy dx

33 Let u = sin x so y = ln u Let y = ln(sin x) Find dy dx dy dx = dy du du dx = 1 u du dx = 1 sin x cos x = cot x

34 More generally, suppose: y = ln f(x) Find the derivative

35 y = ln f(x) Let u = f(x) so y = ln u dy dx = dy du du dx = 1 u du dx = 1 f(x) f (x)

36 Example: Find the derivative d 1 (ln f(x)) = dx f(x) f (x) y = ln ( x ) dy dx = 1 x d dx ( x)

37 Find the derivative y = ln ( x ) dy dx = 1 x 1/2 d dx (x 1/2) = x 1/2 1 2 x 1/2 = 1 2 x 1 = 1 2x

38 Example: Find the derivative y = ln ( x ) Alternate solution: dy dx = d dx y = ln ( x ) = ln ( ) 1 2 ln x = 1 2 ( x 1/2) = 1 2 ln x d dx (ln x) = x = 1 2x

39 Find the derivative of: y = ln ( x 2 cos x )

40 y = ln ( x 2 cos x ) = ln ( x 2) + ln cos x = 2 ln x + ln cos x dy dx = 2 1 x + 1 cos x ( sin x) = 2 x tan x

41 Find the derivative of: y = ln(sec x + tan x)

42 Find the derivative of: y = ln(sec x + tan x) dy dx = 1 sec x + tan x d (sec x + tan x) dx

43 Find the derivative of: dy dx = 1 sec x + tan x y = ln(sec x + tan x) d (sec x + tan x) dx 1 = sec x + tan x (sec x tan x + sec2 x) 1 = (tan x + sec x) sec x sec x + tan x = sec x

44 Similarly d (ln(sec x + tan x)) = sec x dx sec x dx = ln(sec x + tan x) + C d (ln(csc x + cot x)) = csc x dx csc x dx = ln(csc x + cot x) + C

45 More generally, d dx (ln x) = 1 x d dx (ln x ) = 1 x d dx (ln f(x)) = f (x) f(x) d dx (ln f(x) ) = f (x) f(x)

46 d dx (ln x ) = 1 x d dx (ln f(x) ) = f (x) f(x) 1 dx = ln x + C x f (x) dx = ln f(x) + C f(x)

47 1 2x + 1 dx

48 Let u = 2x + 1 du dx = 2 1 2du = dx 1 1 2x + 1 dx = u 1 2 du = u du = 1 2 ln u + C = 1 ln 2x C 2

49 Alternate approach: Make use of the formula: f (x) f(x) dx = ln f(x) + C 1 2x + 1 dx = x + 1 dx = 1 2 ln 2x C

50 1/2 0 x 2x + 1 dx

51 1/2 0 x 2x + 1 dx Let u = 2x + 1 x = 1 2 (u 1) dx = 1 2 du 1/2 0 x 2x + 1 dx = = (u 1) 2 du u 1 = 1 ln 2 4 ( 1 1 u ) du

52 tan x dx

53 tan x dx = sin x cos x dx

54 Let t = cos x dt = sin x dx dt = sin x dx sin x tan x dx = cos x dx 1 = t dt = ln t + C = ln cos x + C

55 e x e x e x dx + e x

56 Let t = e x + e x dt = (e x e x ) dx e x e x e x dx = + e x 1 t dt = ln t + C = ln ( e x + e x) + C

57 Note: 1 2 (ex e x ) is called a hyperbolic sine and 1 2 (ex + e x ) is called a hyperbolic cosine sinh x = 1 2 ( e x e x) cosh x = 1 2 ( e x + e x)

58 sinh x = 1 2 ( e x e x) cosh x = 1 2 ( e x + e x) tanh x = sinh x 1 cosh x = 2 (ex e x ) 1 2 (ex + e x ) = ex e x e x + e x e x e x e x dx = tanh x dx + e x

Test one Review Cal 2

Name: Class: Date: ID: A Test one Review Cal 2 Short Answer. Write the following expression as a logarithm of a single quantity. lnx 2ln x 2 ˆ 6 2. Write the following expression as a logarithm of a single