Kategoriak: All - inverse - functions - integration - growth

arabera Francisco Santana 11 years ago

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Calcmindmap

The text delves into various concepts and theorems from calculus, specifically focusing on integration, inverse functions, and logarithmic differentiation. It begins by addressing trigonometric functions and their properties, explaining identities like sin(

Calcmindmap

Calc 2

Chapter 7

7.6
Laws of Growth & decay

y=yoe^ct^

7.5
theorems

Theorem 7.28 Dx a^x^= a^x^=lna

Theorem 7.29 ∫a^x^ dx=(1/lna)a^x^ +C

Theorem 7.31 Dx log_a_x= Dx (lnx/lna)=i/xlna

7.4
Integration

∫1/u du=ln

∫e^x^ dx=e^x^

trig integrals

(i)∫tanu du= -ln {cosu} +C

(ii)∫cotu du=ln {sinu} +C

(iii)∫secu du= ln {secu+tanu} +C

(iv)∫cscu du=ln {cscu-cotu} +C

7.3
e^x

If x is any real #, then e^x^=y iff lny=x

If p and q are real #s and r is a rational #, then:

(i)e^p^e^q^= e^p+q^

(ii)e^p^/e^q^=e^p-^

(iii)(e^p^)^r^=e^pr^

Dx e^x^=e^x^

7.2
Guidelines for logatythmic differentiation

y=f(x)

lny=lnf(x)

Dx[lny]=Dx[f(x)]

1/yDxy=Dx[lnf(x)]

Dxy=f(x)Dx[lnf(x)]

Sulaws of natral logs

If p>0 and q>0, then:

(i) lnpq=lnp+lnq

(ii) lnp/q=lnp-lnq

(iii) lnp^r6=rlnp for every rational # r

Natural Log

Definition 7.9: natural log, ln, is defined by lnx= integeral from 1 to x of 1/t dt for every x>0

Theorem 7.10: Dx lnx=1/x

7.1
Theorem 7.7

If a differntiable function f has an inverse function g=f^-1^ and if f'(g(c))=/=0, then g is differentiable at c and g'(c)=[1/f'(g(c))]

Inverse Functions

Definition 7.1: A Function f with domain D & range R is a one-to-one fucntion whenever a=/=b in D, then f(a)=/=f(b) in R

Definition 7.2: Let f be a one-to-one function with domain D and range R. a fucntion g with domiain R and range D it the inverse function of f, provided the folloing contition is true for every x in D and every y in R; y=f(x) iff x=g(y)

Chapter 8

8.1
Subtopic

(i) sin(arcsinx)=x if -1≤x≤1

(ii) arcsin(sinx)=x if -