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SQUENCE, PROGRESSION AND SERIES 
A succession of numbers ?? 1
, ?? 2
, … ?? ?? formed according to the some definite rule is called sequence. "A 
sequence is a function of natural numbers with codomain as the set of Real numbers or complex 
numbers" 
Domain of sequence = ?? 
if Range of sequence ? ?? ? Real sequence 
if Range of sequence ? ?? ? Complex sequence 
 
Sequence is called finite or infinite depending upon its having number of terms as finite or infinite 
respectively. For example : 2,3,5,7,11, … is a sequence of prime numbers. It is an infinite sequence. 
  
Page 2


 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A succession of numbers ?? 1
, ?? 2
, … ?? ?? formed according to the some definite rule is called sequence. "A 
sequence is a function of natural numbers with codomain as the set of Real numbers or complex 
numbers" 
Domain of sequence = ?? 
if Range of sequence ? ?? ? Real sequence 
if Range of sequence ? ?? ? Complex sequence 
 
Sequence is called finite or infinite depending upon its having number of terms as finite or infinite 
respectively. For example : 2,3,5,7,11, … is a sequence of prime numbers. It is an infinite sequence. 
  
 
 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A progression is a sequence having its terms in a definite pattern e.g.: 1,4,9,16, ... is a progression as each 
successive term is obtained by squaring the next natural number. 
However a sequence may not always have an explicit formula of ?? th 
 term. 
Series is constructed by adding or subtracting the terms of a sequence e.g., 2 + 4 + 6 + 8 + ? . . + is a 
series. 
The term at ?? th 
 place is denoted by ?? ?? and is called general term of a sequence or progression or series. 
  
Page 3


 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A succession of numbers ?? 1
, ?? 2
, … ?? ?? formed according to the some definite rule is called sequence. "A 
sequence is a function of natural numbers with codomain as the set of Real numbers or complex 
numbers" 
Domain of sequence = ?? 
if Range of sequence ? ?? ? Real sequence 
if Range of sequence ? ?? ? Complex sequence 
 
Sequence is called finite or infinite depending upon its having number of terms as finite or infinite 
respectively. For example : 2,3,5,7,11, … is a sequence of prime numbers. It is an infinite sequence. 
  
 
 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A progression is a sequence having its terms in a definite pattern e.g.: 1,4,9,16, ... is a progression as each 
successive term is obtained by squaring the next natural number. 
However a sequence may not always have an explicit formula of ?? th 
 term. 
Series is constructed by adding or subtracting the terms of a sequence e.g., 2 + 4 + 6 + 8 + ? . . + is a 
series. 
The term at ?? th 
 place is denoted by ?? ?? and is called general term of a sequence or progression or series. 
  
 
 
 
 
 
 
ARITHMETIC PROGRESSION (A.P.) 
It is sequence in which the difference between any term and its just preceding term remains constant 
throughout. This constant is called the "common difference" of the A.P. and is denoted by ' ?? ' generally. 
A.P. is of the form ?? , (?? + ?? ), (?? + 2?? )… 
where ' ?? ' denotes the first term or initaial term 
  
Page 4


 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A succession of numbers ?? 1
, ?? 2
, … ?? ?? formed according to the some definite rule is called sequence. "A 
sequence is a function of natural numbers with codomain as the set of Real numbers or complex 
numbers" 
Domain of sequence = ?? 
if Range of sequence ? ?? ? Real sequence 
if Range of sequence ? ?? ? Complex sequence 
 
Sequence is called finite or infinite depending upon its having number of terms as finite or infinite 
respectively. For example : 2,3,5,7,11, … is a sequence of prime numbers. It is an infinite sequence. 
  
 
 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A progression is a sequence having its terms in a definite pattern e.g.: 1,4,9,16, ... is a progression as each 
successive term is obtained by squaring the next natural number. 
However a sequence may not always have an explicit formula of ?? th 
 term. 
Series is constructed by adding or subtracting the terms of a sequence e.g., 2 + 4 + 6 + 8 + ? . . + is a 
series. 
The term at ?? th 
 place is denoted by ?? ?? and is called general term of a sequence or progression or series. 
  
 
 
 
 
 
 
ARITHMETIC PROGRESSION (A.P.) 
It is sequence in which the difference between any term and its just preceding term remains constant 
throughout. This constant is called the "common difference" of the A.P. and is denoted by ' ?? ' generally. 
A.P. is of the form ?? , (?? + ?? ), (?? + 2?? )… 
where ' ?? ' denotes the first term or initaial term 
  
 
 
 
 
 
Important Relations : 
?? ?? - ?? ?? -1
= ?? = common difference 
?? ?? = ?? th 
 term of A.P. = {?? + (?? - 1)?? } = ?? ?? ?? '
= ?? th 
 term of A.P. from the end 
 = (?? - ?? + 1)
?? h
 term from beginning 
?? = total number of terms 
 i.e. , = ?? ?? '
= ?? (?? -?? +1)
= ?? + (?? - ?? )?? 
  
Page 5


 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A succession of numbers ?? 1
, ?? 2
, … ?? ?? formed according to the some definite rule is called sequence. "A 
sequence is a function of natural numbers with codomain as the set of Real numbers or complex 
numbers" 
Domain of sequence = ?? 
if Range of sequence ? ?? ? Real sequence 
if Range of sequence ? ?? ? Complex sequence 
 
Sequence is called finite or infinite depending upon its having number of terms as finite or infinite 
respectively. For example : 2,3,5,7,11, … is a sequence of prime numbers. It is an infinite sequence. 
  
 
 
 
 
 
SQUENCE, PROGRESSION AND SERIES 
A progression is a sequence having its terms in a definite pattern e.g.: 1,4,9,16, ... is a progression as each 
successive term is obtained by squaring the next natural number. 
However a sequence may not always have an explicit formula of ?? th 
 term. 
Series is constructed by adding or subtracting the terms of a sequence e.g., 2 + 4 + 6 + 8 + ? . . + is a 
series. 
The term at ?? th 
 place is denoted by ?? ?? and is called general term of a sequence or progression or series. 
  
 
 
 
 
 
 
ARITHMETIC PROGRESSION (A.P.) 
It is sequence in which the difference between any term and its just preceding term remains constant 
throughout. This constant is called the "common difference" of the A.P. and is denoted by ' ?? ' generally. 
A.P. is of the form ?? , (?? + ?? ), (?? + 2?? )… 
where ' ?? ' denotes the first term or initaial term 
  
 
 
 
 
 
Important Relations : 
?? ?? - ?? ?? -1
= ?? = common difference 
?? ?? = ?? th 
 term of A.P. = {?? + (?? - 1)?? } = ?? ?? ?? '
= ?? th 
 term of A.P. from the end 
 = (?? - ?? + 1)
?? h
 term from beginning 
?? = total number of terms 
 i.e. , = ?? ?? '
= ?? (?? -?? +1)
= ?? + (?? - ?? )?? 
  
 
 
 
 
 
Important Relations : 
?? ?? '
 = ?? ?? h
 term of A.P. from the end 
 = {?? - (?? - 1)?? }
?? ?? = the sum of first ?? terms of A.P. 
 =
?? 2
[2?? + (?? - 1)?? ] =
?? 2
[?? + ?? ]
 =
?? 2
[2?? - (?? - 1)?? ]
?? ?? = ?? ?? - ?? ?? -1
 
  
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FAQs on Flashcards: Sequences and Series - Mathematics (Maths) for JEE Main & Advanced

1. How do you determine if a sequence is arithmetic or geometric?
Ans. An arithmetic sequence is one in which the difference between consecutive terms is constant, while a geometric sequence is one in which the ratio between consecutive terms is constant. To determine if a sequence is arithmetic, you can subtract each term from the next term and check if the result is constant. Similarly, to determine if a sequence is geometric, you can divide each term by the previous term and check if the result is constant.
2. How can you find the sum of an arithmetic series?
Ans. The sum of an arithmetic series can be calculated using the formula: S = n/2 * (2a + (n-1)d), where S is the sum of the series, n is the number of terms, a is the first term, and d is the common difference. By plugging in these values, you can find the sum of the arithmetic series.
3. What is the formula for finding the nth term of a geometric sequence?
Ans. The formula for finding the nth term of a geometric sequence is: $a_n = a_1 * r^{(n-1)}$, where $a_n$ is the nth term, $a_1$ is the first term, r is the common ratio, and n is the term number. By plugging in these values, you can find any term in a geometric sequence.
4. How do you know if a series converges or diverges?
Ans. A series converges if the sum of its terms approaches a finite value as the number of terms approaches infinity. To determine if a series converges, you can use tests such as the ratio test, the root test, or the comparison test. If the limit of the terms approaches a finite value, the series converges; otherwise, it diverges.
5. How can you find the sum of an infinite geometric series?
Ans. The sum of an infinite geometric series can be calculated using the formula: S = a / (1 - r), where S is the sum of the series, a is the first term, and r is the common ratio. This formula only works if the absolute value of r is less than 1. By plugging in these values, you can find the sum of an infinite geometric series.
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