Sequence and Series-Definition, Types, Formulas and Examples (2024)

Sequence and series are the basic topics in Arithmetic. An itemized collection of elements in which repetitions of any sort are allowed is known as a sequence, whereas a series is the sum of all elements. An arithmetic progression is one of the common examples of sequence and series.

In short, asequence is a list of items/objects which have been arranged in a sequential way.
A series can be highly generalized as the sum of all the terms in a sequence. However, there has to be a definite relationship between all the terms of the sequence.

The fundamentals could be better understood by solving problems based on the formulas. They are very similar to sets but the primary difference isthat in a sequence, individual terms can occur repeatedly in various positions. The length of a sequence is equal to the number of terms and it can be either finite or infinite. Thisconcept is explained in a detailed manner in Class 11 Maths. With the help of definition, formulas and examples we are going to discuss here the concepts of sequence as well as series.

Check: Study Mathematics

Table of contents:

Definition
Types
Formulas
Difference
Examples
FAQs

Sequence and Series Definition

A sequence is an arrangement of any objects or a set of numbers in a particular order followed by some rule. If a₁, a₂, a₃, a₄,……… etc. denote the terms of a sequence, then 1,2,3,4,…..denotes the position of the term.

A sequence can be defined based on the number of terms i.e. either finite sequence or infinite sequence.

If a₁, a₂, a₃, a_4,……. is a sequence, then the corresponding series is given by

S_N= a₁+a₂+a₃+ .. + a_N

Note: The series is finite or infinite depending if the sequence is finite or infinite.

Types of Sequence and Series

Some of the most common examples of sequences are:

Arithmetic Sequences
Geometric Sequences
Harmonic Sequences
Fibonacci Numbers

Arithmetic Sequences

A sequence in which every term is created by adding or subtracting a definite number to the preceding number is an arithmetic sequence.

Geometric Sequences

A sequence in which every term is obtained by multiplying or dividing a definite number with the preceding number is known as a geometric sequence.

Harmonic Sequences

A series of numbers is said to be in harmonic sequence if the reciprocals of all the elements of the sequence form an arithmetic sequence.

Fibonacci Numbers

Fibonacci numbers form an interesting sequence of numbers in which each element is obtained by adding two preceding elements and the sequence starts with 0 and 1. Sequence is defined as, F₀ = 0 and F₁ = 1 and F_n = F_n-1+ F_n-2

Also, see:

Sequence and Series Worksheets
Difference Between Sequence And Series
Sequences and Series Class 11
Important Questions Class 11 Maths Chapter 9 Sequences Series

Sequence and Series Formulas

List of some basic formula of arithmetic progression and geometric progression are

	Arithmetic Progression	Geometric Progression
Sequence	a, a+d, a+2d,……,a+(n-1)d,….	a, ar, ar²,….,ar^(n-1),…
Common Difference or Ratio	Successive term – Preceding term Common difference = d = a₂ – a₁	Successive term/Preceding term Common ratio = r = ar^(n-1)/ar^(n-2)
General Term (nth Term)	a_n= a + (n-1)d	a_n= ar^(n-1)
nth term from the last term	a_n = l – (n-1)d	a_n = l/r^(n-1)
Sum of first n terms	s_n = n/2(2a + (n-1)d)	s_n = a(1 – rⁿ)/(1 – r) if \|r\| < 1 s_n = a(rⁿ -1)/(r – 1) if \|r\| > 1

*Here, a = first term, d = common difference, r = common ratio, n = position of term, l = last term

Difference Between Sequences and Series

Let us find out how a sequence can be differentiated with series.

Sequences	Series
Set of elements that follow a pattern	Sum of elements of the sequence
Order of elements is important	Order of elements is not so important
Finite sequence: 1,2,3,4,5	Finite series: 1+2+3+4+5
Infinite sequence: 1,2,3,4,……	Infinite Series: 1+2+3+4+……

Sequence and Series Examples

Question 1: If 4,7,10,13,16,19,22……is a sequence, Find:

Common difference
nth term
21st term

Solution: Given sequence is, 4,7,10,13,16,19,22……

a) The common difference = 7 – 4 = 3

b) The nth term of the arithmetic sequence is denoted by the term T_n and is given by T_n = a + (n-1)d, where “a” is the first term and d is the common difference.
T_n = 4 + (n – 1)3 = 4 + 3n – 3 = 3n + 1
c) 21st term as: T₂₁ = 4 + (21-1)3 = 4+60 = 64.

Question 2: Consider the sequence 1, 4, 16, 64, 256, 1024….. Find the common ratio and 9th term.

Solution: The common ratio (r) = 4/1 = 4

The preceding term is multiplied by 4 to obtain the next term.

The nth term of the geometric sequence is denoted by the term T_n and is given by T_n = ar^(n-1)
where a is the first term and r is the common ratio.

Here a = 1, r = 4 and n = 9

So, 9th term is can be calculated as T₉ = 1* (4)^(9-1)= 4⁸ = 65536.

Learning about mathematical concepts can be so much fun. Download BYJU’S – The Learning App and discover innovative ways to learn Math.

Frequently Asked Questions

What does a Sequence and a Series Mean?

A sequence is defined as an arrangement of numbers in a particular order. On the other hand, a series is defined as the sum of the elements of a sequence.

What are Some of the Common Types of Sequences?

A few popular sequences in maths are:

Arithmetic Sequences
Geometric Sequences
Harmonic Sequences
Fibonacci Numbers

What are Finite and Infinite Sequences and Series?

Sequences: A finite sequence is a sequence that contains the last term such as a₁, a₂, a₃, a₄, a₅, a₆……a_n.On the other hand, an infinite sequence is never-ending i.e. a₁, a₂, a₃, a₄, a₅, a₆……a_n…..

Series: In a finite series, a finite number of terms are written like a₁+ a₂+ a₃ + a₄+ a₅ + a_{6 +}……a_n. In case of an infinite series, the number of elements are not finite i.e. a₁+ a₂+ a₃ + a₄+ a₅ + a_{6 +}……a_n+_…..

Give an example of sequence and series.

An example of sequence: 2, 4, 6, 8, …
An example of a series: 2 + 4 + 6 + 8 + …

What is the formula to find the common difference in an arithmetic sequence?

The formula to determine the common difference in an arithmetic sequence is:
Common difference = Successive term – Preceding term.

How to represent the arithmetic sequence?

If “a” is the first term and “d” is the common difference of an arithmetic sequence, then it is represented by a, a+d, a+2d, a+3d, …

How to represent the geometric sequence?

If “a” is the first term and “r” is the common ratio of a geometric sequence, then the geometric sequence is represented by a, ar, ar², ar³, …., ar^n-1, ..

How to represent arithmetic and geometric series?

The arithmetic series is represented by a + (a+d) + (a+2d) + (a+3d) + …
The geometric series is represented by a + ar + ar² + ar³ + ….+ ar^n-1+ ..

FAQs

Sequence and Series-Definition, Types, Formulas and Examples? ›

The 'nth' term of this arithmetic sequence, represented as 'an', can be computed using the formula: an = a + (n – 1) d. The total sum of the arithmetic series, denoted as 'Sn', can be calculated through the formula: Sn = n/2 (2a + (n – 1) d) (or) Sn = n/2 (a + an).

Know More ›

What is the formula for sequence and series with example? ›

See Details ›

What are the different types of sequence formulas? ›

We have two types of sequence formulas, arithmetic sequence formulas, and geometric sequence formulas. An arithmetic sequence is a sequence in which the difference between every two consecutive terms is constant. A geometric sequence is a sequence in which the ratio of every two consecutive terms is constant.

Discover More Details ›

What are the 4 types of sequences in math? ›

What is a sequence? A number sequence is a set of numbers that follow a particular pattern or rule to get from term to term. There are four main types of different sequences you need to know, they are arithmetic sequences, geometric sequences, quadratic sequences and special sequences.

Get More Info ›

What is the definition of series and sequence? ›

A sequence is a set or collection of numbers arranged in a specific order or in a specific style, or a function with a domain equal to the set of positive integers, whereas a series is the sum of the parts of a sequence or a list of numbers with additional operations between them.

What is a formula of a sequence? ›

Answer: The formula for the nth term in an arithmetic sequence is an=a1+(n−1)d. This formula can be used to determine the value of any term in an arithmetic sequence. An arithmetic sequence has a common difference between every term.

Tell Me More ›

What are 5 examples of sequences? ›

5 examples of sequences?

1,2,3,4,5...... - Infinite Sequence.
3,6,9,12,15.......30 -Finite Sequence.
4,7,10.... - Arithmetic Sequence.
1/1, 1/2, 1/3... - Harmonic Sequence.
0,1,1,2,3,5,8......-Fibonacci Sequence.

Jun 7, 2016

Know More ›

What is the series formula? ›

Arithmetic Sequence and Series Formulas

n^th term of arithmetic sequence, a_n = a + (n - 1) d. Sum of the arithmetic series, S_n = n/2 (2a + (n - 1) d) (or) S_n = n/2 (a + a_n)

Get More Info ›

How many types of series and sequences are there? ›

Types of Sequence and Series

Arithmetic Sequences. Geometric Sequences. Harmonic Sequences. Fibonacci Numbers.

Keep Reading ›

What is the rule of sequence? ›

The general rule for an arithmetic sequence is a n = a 1 + ( n − 1 ) d where is the common difference, is the term placement ( 1 s t , 2 n d , 3 r d , . . . ), is a term value, and is the first term in the sequence.

Know More ›

What is the Fibonacci sequence formula? ›

Fibonacci sequence, the sequence of numbers 1, 1, 2, 3, 5, 8, 13, 21, …, each of which, after the second, is the sum of the two previous numbers; that is, the nth Fibonacci number F_n = F_n ₋ ₁ + F_n ₋ ₂.

View Details ›

How to tell if sequence or series? ›

The series is defined as the addition/sum of terms in a sequence. For example, 2, 4, 6, 8 is a sequence, then the series is written as 2+4+6+8.

Know More ›

What is a series in math? ›

Definition of a Series

A mathematical series is the sum of a list of numbers that are generating according to some pattern or rule. For example, '1+3+5+7+9' is a mathematical series - the sum of the first five odd numbers.

View Details ›

What is a real life example of sequence and series? ›

Many real-life situations can be modelled using sequences and series, including but not limited to: patterns made when tiling floors; seating people around a table; the rate of change of a population; the spread of a virus and many more.

Know More ›

What is the formula for series order? ›

Sequences and Series Formulas

	Arithmetic Progression
Sequence	a, (a + d), (a+2d), (a + 3d),……….
Series	a + (a + d) + (a + 2d) + (a + 3d) +…
First term	a
Common Difference or Ratio	Common difference = Successive term – Preceding term => d = a₂ – a₁

2 more rows

Jun 5, 2024

Show Me More ›

How do you use sequence formula? ›

THE SEQUENCE FUNCTION

The syntax for SEQUENCE is =SEQUENCE(rows,[columns],[start],[step]). Here are some examples: =SEQUENCE(10) will generate a column of the numbers 1 through 10. =SEQUENCE(5,2) will generate the numbers 1 through 10 in a 2-column by 5-row range.