THE DEFINITE INTEGRAL

4.1 INTRODUCTION TO AREA Finding area of polygonal regions can

be accomplished using area formulas for rectangles and triangles.

Finding area bounded by a curve is more challenging.

Consider that the area inside a circle is the same as the area of an inscribed n-gon where n is infinitely large.

ADDING INFINITELY MANY TERMS TOGETHER Summation notation simplifies

representation Area under any curve can be found by

summing infinitely many rectangles fitting under the curve.

n

iii

nn

ttfArea

ttfttfttfttfArea

1

332211

)(

)(...)()()(

4.2 THE DEFINITE INTEGRAL Riemann sum is the sum of the

product of all function values at an arbitrary point in an interval times the length of the interval.

Intervals may be of different lengths, the point of evaluation could be any point in the interval.

To find an area, we must find the sum of infinitely many rectangles, each getting infinitely small.

DEFINITION: DEFINITE INTEGRAL Let f be a function that is defined

on the closed interval [a,b]. If exists, we

say f is integrable on [a,b]. Moreover,

called the definite integral (or Riemann integral) of f from a to

be, is then given as that limit.

b

a

dxxf )(

n

iii

Pxxf

1

_

0)(lim

AREA UNDER A CURVE The definite integral from a to b of f(x)

gives the signed area of the region trapped between the curve, f(x), and the x-axis on that interval.

The lower limit of integration is a and the upper limit of integration is b.

If f is bounded on [a,b] and continuous except at a finite number of points, then f is integrable on [a,b]. In particular, if f is continuous on the whole interval [a,b], it is integrable on [a,b].

FUNCTIONS THAT ARE ALWAYS INTEGRABLE

Polynomial functions Sin & cosine functions Rational functions, provided that [a,b]

contains no points where the denominator is 0.

4.3 FIRST FUNDAMENTAL THEOREM Let f be continous on the closed

interval [a,b] and let x be a (variable) point in (a,b). Then

x

a

xfdttfdxd )()(

WHAT DOES THIS MEAN? The rate at which the area under the

curve of function, f(t), is changing at a point is equal to the value of the function at that point.

4.4 THE 2ND FUNDAMENTAL THEOREM OF CALCULUS AND THE METHOD OF SUBSTITUTION Let f be continuous (integrable) on

[a,b], and let F be any antiderivative of f on [a,b]. Then the definite integral is

b

a

aFbFdxxf )()()(

EVALUATE

42644121664

)2(3)2(4)2()4(34

44

34

32

24

24

4

2

4

2

24

3

xxxdxxx

SUBSTITUTION RULE FOR INDEFINITE INTEGRALS

Let g be a differentiable function and suppose that F is an antiderivative of f. Then

CxgFdxxgxgf ))(()('))((

WHAT DOES THIS REMIND YOU OF? It is the chain rule! (from

differentiation) In this case, you have an integral with a

function and it’s derivative both present in the integrand.

This is often referred to as “u-substitution”

Let u=function and du=that function’s derivative

EVALUATE

CxCuduu

dxxx

dxxduxu

dxxx

9)3(cos

931

)3sin(3))3(cos(31

})3sin(3),3cos({

)3sin()3(cos

332

2

2

SUBSTITUTION RULE FOR DEFINITE INTEGRALS Let g have a continuous derivative on

[a,b], and let f be continuous on the range of g. Then where u=g(x):

b

a

bg

ag

duufdxxgxgf)(

)(

)()('))((

WHAT DOES THIS MEAN? For a definite integral, when a

substitution for u is made, the upper and lower limits of integration must change. They were stated in terms of x, they must be changed to be the corresponding values, in terms of u.

When this change in the upper & lower limits is made, there is no need to change the function back to be in terms of x. It is evaluated in terms of the upper & lower limits in terms of u.

EVALUATE:

3

1

31

21

9

1

53.1)1cos3(cos)cos(sin

39,11,21,,

2sin

uudu

uudxx

duxudxxx

4.5 THE MEAN VALUE THEOREM FOR INTEGRALS AND THE USE OF SYMMETRY Average Value of a Function: If f is

integrable on the interval [a,b], then the average value of f on [a,b] is:

b

aave dxxf

abf )(1

WHAT DOES THIS MEAN? If you consider the definite integral

from over [a,b] to be the area between the curve f(x) and the x-axis, f-average is the height of the rectangle that would be formed over that same interval containing precisely the same area.

MEAN VALUE THEOREM FOR INTEGRALS If f is continuous on [a,b], then there is

a number c between a and b such that

b

a

dttfab

cf )(1)(

SYMMETRY THEOREM If f is an even function then

If f is an odd function, then

0)(

)(2)(0

a

a

aa

a

dxxf

dxxfdxxf

4.6 NUMERICAL INTEGRATION If f is continuous on a closed interval

[a,b], then the definite integral must exist. However, it is not always easy or possible to find the definite integral.

In these cases, we use other methods to closely approximate the definite integral.

METHODS FOR APPROXIMATING A DEFINITE INTEGRAL Left (or right or midpoint) Riemann

sums (estimate the area with rectangles)

Trapezoidal Rule (estimate with several trapezoids)

Simpson’s Rule (estimate the area with the region contained under several parabolas)

SUMMARY OF NUMERICAL TECHNIQUES

Approximating the definite integral of f(x) over the interval from a to b.

)]()(4)...(4)(2)(4)([3

:'

2)()(

2:

))1((:

13210

1

1

1

nn

n

i

ii

n

i

xfxfxfxfxfxfnab

sSimpson

xfxfnabTrapezoid

nabiaf

nabRiemann