Difference between revisions of "Integral"
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===Definite Integral=== | ===Definite Integral=== | ||
− | The definite integral is also the [[area]] under a [[curve]] between two [[points]] <math>a</math> and <math>b</math>. For example, the area under the curve <math>f(x)=\sin x</math> between <math>-\frac{\pi}{2}</math> and <math>\frac{\pi}{2}</math> is <math>0</math>, as | + | The definite integral is also the [[area]] under a [[curve]] between two [[points]] <math>a</math> and <math>b</math>. For example, the area under the curve <math>f(x)=\sin x</math> between <math>-\frac{\pi}{2}</math> and <math>\frac{\pi}{2}</math> is <math>0</math>, as area below the x-axis is taken as negative area. |
====Definition and Notation==== | ====Definition and Notation==== | ||
*The definite integral of a function between <math>a</math> and <math>b</math> is written as <math>\int^{b}_{a}f(x)\,dx</math>. | *The definite integral of a function between <math>a</math> and <math>b</math> is written as <math>\int^{b}_{a}f(x)\,dx</math>. | ||
− | *<math>\int^{b}_{a}f(x)\,dx=F(b)-F(a)</math>, where <math>F(x)</math> is the antiderivative of <math>f(x)</math>. This is also notated <math>\int f(x)\,dx | + | *<math>\int^{b}_{a}f(x)\,dx=F(b)-F(a)</math>, where <math>F(x)</math> is the antiderivative of <math>f(x)</math>. This is also notated <math>[\int f(x)\,dx]^{b}_{a}</math>, read as "The integral of <math>f(x)</math> evaluated at <math>a</math> and <math>b</math>." Note that this means in definite integration, one need not add a constant, as the constants from the functions cancel out. |
+ | |||
====Rules of Definite Integrals==== | ====Rules of Definite Integrals==== | ||
*<math>\int^{b}_{a}f(x)\,dx=\int^{b}_{c}f(x)\,dx+\int^{c}_{a}f(x)\,dx</math> for any <math>c</math>. | *<math>\int^{b}_{a}f(x)\,dx=\int^{b}_{c}f(x)\,dx+\int^{c}_{a}f(x)\,dx</math> for any <math>c</math>. | ||
+ | Also, | ||
+ | <cmath>\text{Area} = \iint f(x, y)\,dA</cmath>, | ||
+ | <cmath>\text{Vol} = \iiint f(x, y, z)\,dV</cmath>, | ||
+ | <cmath>\text{4V} = \iiiint f(x, y, z, w)\,dV</cmath>. | ||
==Formal Use== | ==Formal Use== | ||
− | The notion of an '''integral''' is one of the key ideas in severel areas of higher mathematics including [[analysis]] and [[topology]]. The integral can be defined in several ways which can be applied to several different settings. However, the most common definition, and the one which most closely resembles the the 'definite integral' is the ''' | + | The notion of an '''integral''' is one of the key ideas in severel areas of higher mathematics including [[analysis]] and [[topology]]. The integral can be defined in several ways which can be applied to several different settings. However, the most common definition, and the one which most closely resembles the the 'definite integral' is the '''Riemann Integral''' |
− | === | + | ===Riemann Integral=== |
Let <math>f:[a,b]\rightarrow\mathbb{R}</math> | Let <math>f:[a,b]\rightarrow\mathbb{R}</math> | ||
Let <math>L\in\mathbb{R}</math> | Let <math>L\in\mathbb{R}</math> | ||
− | We say that <math>f</math> is ''' | + | We say that <math>f</math> is '''Riemann Integrable''' on <math>[a,b]</math> if and only if |
− | <math>\forall \epsilon>0\:\exists\delta>0</math> such that if <math>\mathcal{\dot{P}}</math> is a [[Partition|tagged partition]] on <math>[a,b]</math> with <math>\|\mathcal{\dot{P}}\|<\delta</math> <math>\implies</math> <math>|S(f,\mathcal{\dot{P}})-L|<\epsilon</math>, where <math>S(f,\mathcal{\dot{P}})</math> is the [[ | + | <math>\forall \epsilon>0\:\exists\delta>0</math> such that if <math>\mathcal{\dot{P}}</math> is a [[Partition|tagged partition]] on <math>[a,b]</math> with <math>\|\mathcal{\dot{P}}\|<\delta</math> <math>\implies</math> <math>|S(f,\mathcal{\dot{P}})-L|<\epsilon</math>, where <math>S(f,\mathcal{\dot{P}})</math> is the [[Riemann sum]] of <math>f</math> with respect to <math>\mathcal{\dot{P}}</math> |
<math>L</math> is said to be the '''integral''' of <math>f</math> on <math>[a,b]</math> and is written as <math>L=\int_a^b f(x)dx=\int_a^b f</math> | <math>L</math> is said to be the '''integral''' of <math>f</math> on <math>[a,b]</math> and is written as <math>L=\int_a^b f(x)dx=\int_a^b f</math> | ||
− | |||
− | Another integral commonly used in introductory texts is the '''Darboux Integral''' (which is often called the | + | <geogebra>2f3876024e3b8d9e4506f2173c591cbfaca665de</geogebra> |
+ | |||
+ | Another integral commonly used in introductory texts is the '''Darboux Integral''' (which is often called the Riemann Integral) | ||
===Darboux Integral=== | ===Darboux Integral=== | ||
Let <math>f:[a,b]\rightarrow\mathbb{R}</math> | Let <math>f:[a,b]\rightarrow\mathbb{R}</math> | ||
− | We say that <math>f</math> is '''Darboux Integrable''' on <math>[a,b]</math> if and only if <math>\inf_{\mathcal{P}}U(f,\mathcal{P})=\sup_{\mathcal{P}}L(f,\mathcal{P})</math>, where <math>L(f,\mathcal{P})</math> and <math>U(f,\mathcal{P})</math> are respectively the [[ | + | We say that <math>f</math> is '''Darboux Integrable''' on <math>[a,b]</math> if and only if <math>\inf_{\mathcal{P}}U(f,\mathcal{P})=\sup_{\mathcal{P}}L(f,\mathcal{P})</math>, where <math>L(f,\mathcal{P})</math> and <math>U(f,\mathcal{P})</math> are respectively the [[Riemann sum|lower sum]] and [[Riemann sum|upper sum]] of <math>f</math> with respect to [[partition]] <math>\mathcal{P}</math> |
− | The notation used for the Darboux integral is the same as that for the | + | The notation used for the Darboux integral is the same as that for the Riemann integral. |
{{image}} | {{image}} | ||
===Other Definitions=== | ===Other Definitions=== | ||
− | Other important definitions of integration include the [[ | + | Other important definitions of integration include the [[Riemann-Stieltjes integral]], [[Lebesgue integral]], [[Henstock-Kurzweil integral]], etc. |
==Disambiguation== | ==Disambiguation== |
Latest revision as of 15:38, 13 November 2024
The integral is one of the two base concepts of calculus, along with the derivative.
Contents
Beginner Level
In introductory, high-school level texts, the integral is often presented in two parts, the indefinite integral and definite integral. Although this approach lacks mathematical formality, it has the advantage of being easy to grasp and convenient to use in most of its applications, especially in Physics.
Indefinite Integral
The indefinite integral, or antiderivative, is a partial inverse of the derivative. That is, if the derivative of a function is written as , then the indefinite integral of is , where is a real constant. This is because the derivative of a constant is .
Notation
- The integral of a function is written as , where the means that the function is being integrated in relation to .
- Often, to save space, the integral of is written as , the integral of as , etc.
Rules of Indefinite Integrals
- for a constant and another constant .
- ,
Definite Integral
The definite integral is also the area under a curve between two points and . For example, the area under the curve between and is , as area below the x-axis is taken as negative area.
Definition and Notation
- The definite integral of a function between and is written as .
- , where is the antiderivative of . This is also notated , read as "The integral of evaluated at and ." Note that this means in definite integration, one need not add a constant, as the constants from the functions cancel out.
Rules of Definite Integrals
- for any .
Also, , , .
Formal Use
The notion of an integral is one of the key ideas in severel areas of higher mathematics including analysis and topology. The integral can be defined in several ways which can be applied to several different settings. However, the most common definition, and the one which most closely resembles the the 'definite integral' is the Riemann Integral
Riemann Integral
Let
Let
We say that is Riemann Integrable on if and only if
such that if is a tagged partition on with , where is the Riemann sum of with respect to
is said to be the integral of on and is written as
<geogebra>2f3876024e3b8d9e4506f2173c591cbfaca665de</geogebra>
Another integral commonly used in introductory texts is the Darboux Integral (which is often called the Riemann Integral)
Darboux Integral
Let
We say that is Darboux Integrable on if and only if , where and are respectively the lower sum and upper sum of with respect to partition
The notation used for the Darboux integral is the same as that for the Riemann integral.
An image is supposed to go here. You can help us out by creating one and editing it in. Thanks.
Other Definitions
Other important definitions of integration include the Riemann-Stieltjes integral, Lebesgue integral, Henstock-Kurzweil integral, etc.
Disambiguation
- The word integral is the adjectival form of the noun "integer." Thus, is integral while is not.