Diagonal of a Polygon Formula
Last Updated :
08 Aug, 2024
Diagonals of a polygon are the lines that connect the alternate vertices of the polygon. A polygon of n sides has n(n-3)/2 diagonals. A polygon is a closed figure with n sides (where n is always greater than equal to 3). A polygon is a closed shape with three or more straight sides, and diagonals are the line segments that connect any two non-adjacent vertices of the polygon.
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Diagonal of a PolygonIn this article, we'll explore the concept of diagonals in polygons, examine their properties and patterns, and discuss their applications in various fields. So, let's get started and dive into the exciting world of polygons and diagonals!
What are Polygons?
Polygon can be defined as a closed figure which is formed by joining the straight lines. So it is easy to see that to make a polygon at least three lines are needed. There are polygons known with different names depending on the number of lines by which it is formed. Some basic polygons are:
- Triangle: A polygon with three sides.
- Quadrilateral: A polygon with four sides.
- Pentagon: A polygon with five sides.
- Hexagon: A polygon with six sides.
- Heptagon: A polygon with seven sides.
- Octagon: A polygon with eight sides.
- Nonagon: A polygon with nine sides.
- Decagon: A polygon with 10 sides.
- Dodecagon: A polygon with 20 sides.
Definition of Diagonals
The diagonal of a polygon can be defined as a line that joins the end of two non-adjacent vertices of any polygon and it is generally inside a polygon for convex polygons and lies outside for concave polygons.
Read More about Diagonal.
Number of Diagonals in a Polygon
As we know there are different polygons with each having a different number of sides, such as a triangle with three sides, quadrilateral with 4 sides, a pentagon with five sides, etc., and each polygon has a different number of diagonals.
- Triangle: There are no diagonals for a triangle.
- Quadrilateral: There are two diagonals for a quadrilateral.
- Pentagon: There are five diagonals for a pentagon.
- Hexagon: There are nine diagonals for a hexagon.
The formula for the number of diagonals of a polygon is given as follows:
Diagonals = (n × (n - 3))/2
Where n is the number of sides of a polygon
Proof:
For making a diagonal in a polygon we need two vertices. Let's consider an N-sided polygon, now each vertex can be connected to the other in nC2 different ways but in this, the number of sides which is n is taken twice so subtract n from the total number of ways.
Hence number of diagonals = nC2 - n
= (n!)/(n - 2)! × (2!) - n
= n(n - 1)(n - 2)!/(n - 2)! × (2!) - n
= n(n - 1)/2 - n
= (n(n - 1) - 2n)/2
= n(n - 3)/2
Diagonal of a Polygon: Summary
A polygon is a two-dimensional geometric figure with straight sides. When discussing the diagonals of a polygon, we refer to the line segments that connect non-adjacent vertices. Calculating the number of diagonals in a polygon is an interesting problem in combinatorial geometry.
Examples of Calculating the Number of Diagonals in a Polygon
Example 1: How many diagonals does a Triangle have?
Solution:
As triangle has 3 sides.
So, for triangle n = 3
Using the formula, diagonals = (n × (n - 3))/2
Diagonals = (3 × (3 - 3))/2
⇒ Diagonals = 0
Hence, a triangle has zero diagonals.
Example 2: Find the number of diagonals of a Square or any other quadrilateral.
Solution:
As Square or any other quadrilateral has 4 sides.
So, for square n = 4
Using formula, diagonals = (n×(n-3))/2
Put n = 4
Diagonals = (4 × (4 - 3))/2
⇒ Diagonals = 2
Hence, a square or any other quadrilateral has two diagonals.
Example 3: How many diagonals does a Pentagon have?
Solution:
As a pentagon has 5 sides.
So, for pentagon n = 5
Using the formula, diagonals = (n × (n - 3))/2
Put n = 5
Diagonals = (5 × (5 - 3))/2
⇒ Diagonals = 5
Hence, a pentagon has five diagonals.
Properties for Diagonals of a Polygon
There are various properties diagonals are associated with for various different polygons such as different types of quadrilaterals and regular polygons. Some of polygons with various different properties of diagonals are:
For Square
- The diagonal of a square bisects the square into two congruent right triangles.
- The length of the diagonal of a square can be found using the Pythagorean theorem: d = √2×s, where d is the length of the diagonal and s is the length of one of the sides of the square.
- The diagonal of a square is also a line of symmetry for the square.
For Parallelogram
- The diagonal of a parallelogram divides the parallelogram into two congruent triangles.
- The diagonal of a parallelogram bisect each other.
- If diagonals are equal to a parallelogram then it is a rectangle.
For Rhombus
- Diagonals of a rhombus are perpendicular bisectors of each other and also divide the rhombus into two triangles with equal area.
For Regular Polygon
- For regular polygons with an even number of sides, diagonals joining the opposite vertices intersect at a point which is called the center of the polygon.
- For regular polygons with an odd number of sides, diagonals joining the opposite vertices don't intersect at the center of the polygon.
Diagonals in Convex and Concave Polygons
Convex and concave polygons are defined based on the position of diagonals. If all the diagonals of a polygon lie inside of the area bounded by its side, then it is called a convex polygon whereas if any one of the diagonals of a polygon lies outside of the area bounded by its side, then it is called a concave polygon.
One another definition of Convex and Concave Polygons includes interior angles. If all internal angles of a polygon are strictly less than 180° then it is called a convex polygon while if any of the interior angles is strictly greater than 180° then it is called a concave polygon.
Lengths of Diagonals in Regular Polygons
As regular polygons equal sides and interior angles, we can find the formula for the length of regular polygons. The formula for the length of the diagonal of a regular polygon is given as:
\bold{d = s \sqrt{2(1- cos(360°/n))}}
Where,
- d is the length of diagonal,
- s is the length of the side, and
- n is the number of sides of the polygon.
Read More,
Sample Problems on Diagonals of a Polygon
Problem 1: How many diagonals does a hexagon have, find using the diagonal of a polygon formula.
Solution:
Hexagon is a polygon that is formed by six straight lines
So a hexagon has 6 sides so n = 6
Using formula, diagonals = (n × (n - 3))/2
Put n = 6
Diagonals = (6 × (6 - 3))/2
⇒ Diagonals = 9
Hence a hexagon has nine diagonals.
Problem 2: There are 20 diagonals in a polygon, find the number of sides it has.
Solution:
Using diagonals formula = (n × (n - 3))/2
So 20 = (n × (n - 3))/2
⇒ 20 × 2 = (n × (n - 3))
⇒ 40 = n2 - 3 × n
⇒ n2 - 3 × n - 40 = 0
⇒ n2 - 8n + 5n - 40 =0
⇒ n(n - 8) + 5(n- 8) = 0
⇒ (n - 8)(n + 5) = 0
So, n = 8
Hence the polygon is the octagon (polygon with 8 sides).
Problem 3: How many diagonals do a decagon has, find using the diagonal of a polygon formula.
Solution:
A decagon has 10 sides so n = 10
Using formula, diagonals = (n × (n - 3))/2
Put n = 10
Diagonals = (10 × (10 - 3))/2
= 35
Hence a decagon has 35 diagonals.
Problem 4: There are 27 diagonals in a polygon, find the number of sides it has.
Solution:
Using diagonals formula = (n × (n - 3))/2
So 27 = (n × (n - 3))/2
⇒ 27 × 2 = (n × (n - 3))
⇒ 54 = n2 - 3 × n
⇒ n2 - 3 × n - 54 = 0
⇒ n2 - 9n + 6n - 54 =0
⇒ n(n - 9) + 6(n- 9) = 0
⇒ (n - 9)(n + 6) = 0
So, n = 9
Hence the polygon is Nonagon (polygon with 9 sides).
Problem 5: How many diagonals does a polygon have if the sides are 20?
Solution:
Put n = 20 in diagonals formula
Diagonals = (20 × (20 - 3))/2
⇒ Diagonals = 170
Hence there will be 170 diagonals in a 20 sided polygon.
Problem 6: There are 405 diagonals in a polygon, find the number of sides it has.
Solution:
Using diagonals formula = (n × (n - 3))/2
So 405 = (n × (n - 3))/2
⇒ 405 × 2 = (n × (n - 3))
⇒ 810 = n2 - 3 × n
⇒ n2 - 3 × n - 810 = 0
⇒ n2 - 30n + 27n - 810 =0
⇒ n(n - 30) + 27(n - 30) = 0
⇒ (n - 30)(n + 27) = 0
So, n = 30
Hence the polygon has 30 sides.
Problem 7: How many diagonals does a polygon have if the sides are 40?
Solution:
Put n = 40 in diagonals formula
Diagonals = (40 × (40 - 3))/2
⇒ Diagonals = 740
Hence, there will be 740 diagonals in a 40 sided polygon.
Problem 8: A Polygon with 7 Sides Find the number of diagonals in a heptagon (7-sided polygon).
Solution:
Using the formula
n×(n-3)×2
Put n = 7
D = 7(7-3)×2
= 7×4×2
=14
Hence the number of diagonals in a heptagon is 14.
1. Number of Diagonals in a Hexagon Calculate the number of diagonals in a hexagon (6-sided polygon).
2. Number of Diagonals in an Octagon Calculate the number of diagonals in an octagon (8-sided polygon).
3. Determine the Number of Diagonals in a Polygon with 12 Sides Calculate the number of diagonals in a polygon with 12 sides.
4. If a Polygon has 35 Diagonals, How Many Sides Does it Have? Determine the number of sides in a polygon that has 35 diagonals.
5. A Polygon with 7 Sides Find the number of diagonals in a heptagon (7-sided polygon).
6. Number of Diagonals in a Decagon Calculate the number of diagonals in a decagon (10-sided polygon).
7. Determine the Number of Sides for 44 Diagonals Find out how many sides a polygon has if it contains 44 diagonals.
8. Number of Diagonals in a Nonagon Calculate the number of diagonals in a nonagon (9-sided polygon).
9. Polygon with 20 Sides Determine the number of diagonals in a polygon with 20 sides.
10. Number of Diagonals in a Dodecagon Calculate the number of diagonals in a dodecagon (12-sided polygon).
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Surface Area of a Square PyramidPyramid is a three-dimensional geometric structure with a polygonal base and triangular faces equal to the number of sides in the base. The triangular faces or lateral surfaces of a pyramid meet at a single point known as the apex or the vertex. Surface Area of a Square Pyramid In a pyramid, the bas
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Volume of a Pyramid FormulaPyramid is a three-dimensional shape whose base is a polygon, and all its triangular faces join at a common point called the apex. The pyramids of Egypt are real-life examples of pyramids. Volume of a pyramid is the space occupied by that pyramid and is calculated by the formula, V = 1/3×(Area of Ba
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Frustum of ConeFrustum of a cone is a special shape that is formed when we cut the cone with a plane parallel to its base. The cone is a three-dimensional shape having a circular base and a vertex. So the frustum of a cone is a solid volume that is formed by removing a part of the cone with a plane parallel to cir
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Volume of a Square Pyramid FormulaA pyramid is a three-dimensional polyhedron with a polygonal base and three or more triangle-shaped faces that meet above the base. The faces are the triangle sides, while the apex is the point above the base. The base is connected to the peak to form a pyramid. When the pyramid's base is in the sha
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Surface Area of a PrismSurface Area of a Prism: In mathematics, a prism is an essential member of the polyhedron family and is defined as a three-dimensional shape having two identical polygons facing each other that are connected by rectangular or parallelogram faces laterally. The identical polygons can be triangles, sq
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Frustum of a Regular Pyramid FormulaA Pyramid is a Mathematical figure having three or four triangular faces as sides and a flat polygonal base which can be triangular, square or rectangular, etc. The side triangular faces are called Lateral faces. The common meeting point of all the triangular faces is called the apex. For a given py
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Algebra
Basic Math FormulasMathematics is divided into various branches according to the way of calculation involved and the topics covered by them. All the branches have various formulas that are used for solving various mathematical problems. The branches include geometry, algebra, arithmetic, percentage, exponential, etc.T
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Algebra Formulas - List of all Algebra FormulasAlgebra formulas are mathematical expressions that help solve problems involving variables and constants. They often represent relationships between quantities and can be used to simplify calculations. This article provides a comprehensive overview of all algebra formulas taught from Class 9 through
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Polynomial FormulaThe polynomial Formula gives the standard form of polynomial expressions. It specifies the arrangement of algebraic expressions according to their increasing or decreasing power of variables. The General Formula of a Polynomial:f(x) = an​xn + an−1​xn−1 + ⋯ + a1​x + a0​Where,an​, an−1​, …, a1​, a0​ a
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Factorization of PolynomialFactorization in mathematics refers to the process of expressing a number or an algebraic expression as a product of simpler factors. For example, the factors of 12 are 1, 2, 3, 4, 6, and 12, and we can express 12 as 12 = 1 × 12, 2 × 6, or 4 × 3.Similarly, factorization of polynomials involves expre
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What is Factoring Trinomials Formula?A Trinomial is a polynomial with three terms. Examples of Trinomial are x+y+z, x2+2x+2, x+y-1 etc. A Trinomial can be of two types. They are Perfect Square Trinomial and Non-Perfect Square Trinomial. Factoring a polynomial is nothing but writing the expression polynomial as a product of two or more
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a2 - b2 Formulaa2 - b2 formula in Algebra is the basic formula in mathematics used to solve various algebraic problems. a2 - b2 formula is also called the difference of squares formula, as this formula helps us to find the difference between two squares without actually calculating the squares. The image added bel
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Difference of CubesDifference of Cubes is the formula in mathematics that is used to simplify the difference between two cubes. This formula is used to solve the difference of cubes without actually finding the cubes. This formula factorizes the difference of a cube and changes it into other forms. The difference of c
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Discriminant Formula in Quadratic EquationsAlgebra can be defined as the branch of mathematics which deals with the study, alteration, and analysis of various mathematical symbols. It is the study of unknown quantities, which are often depicted with the help of variables in mathematics. Algebra has a plethora of formulas and identities for t
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Sum of Arithmetic Sequence FormulaAn arithmetic sequence is a number series in which each subsequent term is the sum of its preceding term and a constant integer. This constant number is referred to as the common difference. As a result, the differences between every two successive terms in an arithmetic series are the same.If the f
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Function Notation FormulaA function is a type of operator that takes an input variable and provides a result. When one quantity is dependent on another, a function is created. An interesting property of functions is that each input corresponds to a single output. In other words, such an operator between two sets, say set A
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Binomial Distribution in ProbabilityBinomial Distribution is a probability distribution used to model the number of successes in a fixed number of independent trials, where each trial has only two possible outcomes: success or failure. This distribution is useful for calculating the probability of a specific number of successes in sce
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Binomial Expansion FormulasBinomial expansion formula is a formula that is used to solve binomial expressions. A binomial is an algebraic expression with two terms. For example, x + y, x - a, etc are binomials. In this article, we have covered the Binomial Expansion definition, formulas, and others in detail.Table of ContentB
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Binomial TheoremBinomial theorem is a fundamental principle in algebra that describes the algebraic expansion of powers of a binomial. According to this theorem, the expression (a + b)n where a and b are any numbers and n is a non-negative integer. It can be expanded into the sum of terms involving powers of a and
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FOIL MethodFOIL formula is used to perform multiplication between two binomials. A binomial is a polynomial with only two terms. Example: x+3, x2+4, 5x2+3x. A binomial is a 2 term algebraic expression that includes constants, variables, exponents and coefficients. Each letter in the FOIL represent steps to mul
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Exponential Decay FormulaExponential Decay Formula: A quantity is said to be in exponential decay if it decreases at a rate proportional to its current value. In exponential decay, a quantity drops slowly at first before rapidly decreasing. The exponential decay formula is used to calculate population decay (depreciation),
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Factorial FormulaThe factorial is one of the most fundamental mathematical operations in combinatorics, algebra, and number theory. Represented by an exclamation mark (!), the factorial of a non-negative integer n, denoted as n!, is the product of all positive integers less than or equal to n. It plays a crucial rol
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Combinations Formula with ExamplesCombinations are way of selecting items from a collection of items. Different groups that can be formed by choosing r things from a given set of n different things, ignoring their order of arrangement, are called combinations of n things taken r at a time.The number of all such combinations is calcu
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Fourier Series FormulaFourier Series is a sum of sine and cosine waves that represents a periodic function. Each wave in the sum, or harmonic, has a frequency that is an integral multiple of the periodic function’s fundamental frequency. Even though a Fourier series can include infinitely many harmonics, using just a few
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Maclaurin seriesPrerequisite - Taylor theorem and Taylor series We know that formula for expansion of Taylor series is written as: f(x)=f(a)+\sum_{n=1}^{\infty}\frac{f^n(a)}{n!}(x-a)^n Now if we put a=0 in this formula we will get the formula for expansion of Maclaurin series. T hus Maclaurin series expansion can b
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Coordinate Geometry
Trigonometry
30-60-90 FormulaA 30-60-90 triangle is a special type of right triangle with one angle measuring 30°, another 60°, and the third angle (the right angle) measuring 90°. The 30-60-90 triangle is called a special right triangle as the angles of this triangle are in a unique ratio of 1:2:3. Here, a right triangle means
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Cofunction FormulasA trigonometric cofunction is defined as expressing a trigonometric angle ratio in terms of the other. It illustrates how sine, cosine, tangent, cotangent, secant, and cosecant relate to each other. The cofunction of an angle's complement is equal to that angle's trigonometric function. For example,
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What is Cos Square theta Formula?The equations that relate the different trigonometric functions for any variable are known as trigonometric identities. These trigonometric identities help us to relate various trigonometric formulas and relationships with different angles. They are sine, cosine, tangent, cotangent, sec, and cosec.
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What are Cosine Formulas?Trigonometry is a discipline of mathematics that studies the relationships between the lengths of the sides and angles of a right-angled triangle. Trigonometric functions, also known as goniometric functions, angle functions, or circular functions, are functions that establish the relationship betwe
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Cosecant FormulaCosecant is one of the six basic trigonometric ratios and its formula is cosecant(θ) = hypotenuse/opposite, it is also represented as, csc(θ). It is the inverse(reciprocal) ratio of the sine function and is the ratio of the Hypotenus and Opposite sides in a right-angle triangle. In this article, we
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Cotangent FormulaTrigonometry is an important branch of mathematics that deals with the relation between the lengths of sides and angles of a right-angled triangle. Sine, Cosine, tangent, cosecant, secant, and cotangent are the six trigonometric ratios or functions. Where a trigonometric ratio is depicted as the rat
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Tangent FormulasTangent Function is among the six basic trigonometric functions and is calculated by taking the ratio of the perpendicular side and the hypotenuse side of the right-angle triangle.In this article, we will learn about Trigonometric ratios, Tangent formulas, related examples, and others in detail.Tabl
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Cot Half Angle FormulaTrigonometry is a branch of mathematics that uses trigonometric ratios to determine the angles and incomplete sides of a triangle. The trigonometric ratios such as sine, cosine, tangent, cotangent, secant, and cosecant are used to investigate this branch of mathematics. It's the study of how the sid
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2cosA cosB FormulaThe identity 2 cos A cos B = cos(A + B) + cos(A – B) is one of the important product-to-sum formulas in trigonometry. This identity is used to convert a product of cosine functions into a sum of cosines, which can simplify the process of solving trigonometric equations, evaluating integrals, and per
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Multiple Angle FormulasTrigonometry is one of the important topics in mathematics that is used in various fields. The trigonometric formulae are applied and used in various formulae, derivations, etc. This article is about the multiple angle formulae in trigonometry where we find sine, cosine, and tangent for multiple ang
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Double Angle Formula for CosineDouble angle formula for cosine is a trigonometric identity that expresses cosâ¡(2θ) in terms of cosâ¡(θ) and sinâ¡(θ) the double angle formula for cosine is, cos 2θ = cos2θ - sin2θ. The formula is particularly useful in simplifying trigonometric expressions and solving equations involving trigonometri
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Inverse Trigonometric Functions | Definition, Formula, Types and Examples Inverse trigonometric functions are the inverse functions of basic trigonometric functions. In mathematics, inverse trigonometric functions are also known as arcus functions or anti-trigonometric functions. The inverse trigonometric functions are the inverse functions of basic trigonometric function
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Complex Number
Calculus
Limit FormulaLimits help us comprehend how functions behave as their inputs approach certain values. Think of a limit as the destination that a function aims to reach as the input gets closer and closer to a specific point.In this article, we will explore the essential limit formulas that form the backbone of ca
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Average and Instantaneous Rate of ChangeThe average rate of change represents the total change in one variable in relation to the total change of another variable. Instantaneous rate of change, or derivative, measures the specific rate of change of one variable in relation to a specific, infinitesimally small change in the other variable.
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Calculus | Differential and Integral CalculusCalculus was founded by Newton and Leibniz. Calculus is a branch of mathematics that helps us study change. It is used to understand how things change over time or how quantities grow, shrink, or accumulate. There are two main parts of calculus:Differential Calculus: It helps us calculate the rate o
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Total DerivativeTotal Derivative of a function measures how that function changes as all of its input variables change. For function f at a point is an approximation near the point of the function w.r.t. (with respect to) its arguments (variables).It is an approximation of the actual change in the function and is u
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Difference Quotient FormulaThe Difference Quotient Formula is a part of the definition of a function derivative. One can get derivative of a function by applying Limit h tends to zero i.e., h ⇢ 0 on difference quotient function. The difference quotient formula gives the slope of the secant line. A secant line is a line that p
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Chain Rule: Theorem, Formula and Solved ExamplesThe Chain Rule is a way to find the derivative of composite functions. It is one of the basic rules used in mathematics for solving differential equations. It helps us to find the derivative of composite functions such as (3x2 + 1)4, (sin 4x), e3x, (ln x)2, and others. Only the derivatives of compos
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Implicit DifferentiationImplicit Differentiation is the process of differentiation in which we differentiate the implicit function without converting it into an explicit function. For example, we need to find the slope of a circle with an origin at 0 and a radius r. Its equation is given as x2 + y2 = r2. Now, to find the s
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Antiderivative: Integration as Inverse Process of DifferentiationAn antiderivative is a function that reverses the process of differentiation. It is also known as the indefinite integral. If F(x) is the antiderivative of f(x), it means that:d/dx[F(x)] = f(x)In other words, F(x) is a function whose derivative is f(x).Antiderivatives include a family of functions t
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Integration FormulasIntegration Formulas are the basic formulas used to solve various integral problems. They are used to find the integration of algebraic expressions, trigonometric ratios, inverse trigonometric functions, and logarithmic and exponential functions. These integration formulas are beneficial for finding
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Integration by PartsIntegration by Parts or Partial Integration, is a technique used in calculus to evaluate the integral of a product of two functions. The formula for partial integration is given by:∫ u dv = uv - ∫ v duWhere u and v are differentiable functions of x. This formula allows us to simplify the integral of
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Integration by Substitution FormulaThe process of finding the anti-derivative of a function is the inverse process of differentiation i.e. finding integral is the inverse process of differentiation. Integration can be used to find the area or volume of a function with or without certain limits or boundaries It is shown as∫g(x)dx = G(
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Definite Integral | Definition, Formula & How to CalculateA definite integral is an integral that calculates a fixed value for the area under a curve between two specified limits. The resulting value represents the sum of all infinitesimal quantities within these boundaries. i.e. if we integrate any function within a fixed interval it is called a Definite
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Area Under CurveArea Under Curve is area enclosed by curve and the coordinate axes, it is calculated by taking very small rectangles and then taking their sum if we take infinitely small rectangles then their sum is calculated by taking the limit of the function so formed.For a given function f(x) defined in the in
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Differentiation and Integration FormulaDifferentiation and Integration are two mathematical operations used to find change in a function or a quantity with respect to another quantity instantaneously and over a period, respectively. Differentiation is an instantaneous rate of change, and it breaks down the function for that instant with
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Differential EquationsA differential equation is a mathematical equation that relates a function with its derivatives. Differential Equations come into play in a variety of applications such as Physics, Chemistry, Biology, Economics, etc. Differential equations allow us to predict the future behavior of systems by captur
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