Overview of Definite Integration

Topics

Mathematical Logic
Matrices
- Elementry Transformations
- Properties of Matrix Multiplication
- Application of Matrices
- Applications of Determinants and Matrices
- Overview of Matrices
Trigonometric Functions
Pair of Straight Lines
Vectors
- Overview of Vectors
Line and Plane
Linear Programming
Differentiation
- Introduction & Derivatives of Some Standard Functions
- Derivative of Composite Functions
- Geometrical Meaning of Derivative
- Derivative of Inverse Function
- Logarithmic Differentiation
- Derivatives of Implicit Functions
- Derivatives of Parametric Functions
- Higher Order Derivatives
- Overview of Differentiation
Applications of Derivatives
- Applications of Derivatives in Geometry
- Derivatives as a Rate Measure
- Approximations
- Rolle's Theorem
- Lagrange's Mean Value Theorem (LMVT)
- Increasing and Decreasing Functions
- Maxima and Minima
- Overview of Applications of Derivatives
Indefinite Integration
Definite Integration
- Definite Integral as Limit of Sum
- Integral Calculus
- Methods of Evaluation and Properties of Definite Integral
- Overview of Definite Integration
Application of Definite Integration
- Application of Definite Integration
- Area Bounded by Two Curves
- Overview of Application of Definite Integration
Differential Equations
Probability Distributions
- Random Variables
- Probability Distribution of Discrete Random Variables
- Probability Distribution of a Continuous Random Variable
- Variance of a Random Variable
- Expected Value and Variance of a Random Variable
- Overview of Probability Distributions
Binomial Distribution

Estimated time: 8 minutes

Maharashtra State Board: Class 12

Definition: Definite Integral

Definite integral = limit of Riemann sum
It represents the area under the curve from to
$\[\int_a^bf(x)dx=\lim_{n\to\infty}\sum_{r=0}^{n-1}f(t_r)(x_{r+1}-x_r)\]$
$\[g\left(b\right)-g\left(a\right)=\lim_{n\to\infty}\sum_{a}\left(x_{r+1}-x_{r}\right)\cdot f\left(t_{r}\right)=\lim_{n\to\infty}S_{n}=\int_{a}^{b}f\left(x\right)dx\]$

Maharashtra State Board: Class 12

Fundamental Theorem of Integral Calculus

Let f be the continuous function defined on [a, b] and if \[\int f(x)dx=g(x)+c\] then \[\int_{a}^{b}f\left(x\right)dx=g\left(b\right)-g\left(a\right)\]

Maharashtra State Board: Class 12

Formula: Reduction Formula

\[\begin{aligned}
\int_{0}^{\pi/2}\sin^{n}xdx & =\quad\frac{(n-1)}{n}\cdot\frac{(n-3)}{(n-2)}\cdot\frac{(n-5)}{(n-4)}\cdot\cdot\cdot\frac{4}{5}\frac{2}{3},\quad\mathrm{if~}n\mathrm{~is~odd}. \\
& =\quad\frac{(n-1)}{n}\cdot\frac{(n-3)}{(n-2)}\cdot\frac{(n-5)}{(n-4)}\cdot\cdot\cdot\frac{3}{4}\frac{1}{2}\cdot\frac{\pi}{2},\quad\mathrm{if~}n\mathrm{~is~even}.
\end{aligned}\]

\[\int_{0}^{\pi_{2}}\cos^{n}xdx=\int_{0}^{\pi_{2}}\left[\cos\left(\frac{\pi}{2}-0\right)\right]^{n}dx=\int_{0}^{\pi_{2}}\left[\sin x\right]^{n}dx=\int_{0}^{\pi_{2}}\sin^{n}xdx\]

Maharashtra State Board: Class 12

Key Points: Properties of Definite Integrals

Property I:

\[\int_{a}^{a}f(x)dx=0\]

Property II:

\[\int_{a}^{b}f\left(x\right)dx=-\int_{b}^{a}f\left(x\right)dx\]

Property III:

\[\int_{a}^{b}f(x)dx=\int_{a}^{b}f(t)dt\]

Property IV:

\[\int_{a}^{b}f\left(x\right)dx=\int_{a}^{c}f\left(x\right)dx+\int_{c}^{b}f\left(x\right)dx\]

where a < c < b i.e. c ∈ [a, b]

Property V:

\[\int_{a}^{b}f(x)dx=\int_{a}^{b}f(a+b-x)dx\]

Property VI:

\[\int_{0}^{a}f(x)dx=\int_{0}^{a}f(a-x)dx\]

Property VII:

\[\int_{0}^{2a}f\left(x\right)dx=\int_{0}^{a}f\left(x\right)dx+\int_{0}^{a}f\left(2a-x\right)dx\]

Property VIII:

$$\int_{-a}^{a} f(x) \, dx = 2 \cdot \int_{0}^{a} f(x) \, dx \quad , \text{ if } f(x) \text{ even function}$$
$$
= 0 \quad , \text{ if } f(x) \text{ is odd function}$$

Overview of Definite Integration

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Topics

Mathematical Logic

Matrices

Trigonometric Functions

Pair of Straight Lines

Vectors

Line and Plane

Linear Programming

Differentiation

Applications of Derivatives

Indefinite Integration

Definite Integration

Application of Definite Integration

Differential Equations

Probability Distributions

Binomial Distribution

Definition: Definite Integral

Fundamental Theorem of Integral Calculus

Formula: Reduction Formula

Key Points: Properties of Definite Integrals

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