UPSC Exam > UPSC Notes > Mathematics Optional Notes for UPSC > Sequences
Sequences | Mathematics Optional Notes for UPSC PDF Download
| Download, print and study this document offline |
Please wait while the PDF view is loading
Page 1
Edurev123
2. Sequences
2.1 Show that a bounded infinite subset of?R must have a limit point.
(2009 : 15 Marks)
Solution:
Let ?? be an infinite and bounded set. There exist and interval [?? ,?? ] such that ?? ?[?? ,?? ].
We define a set ?? as follows :
?? ??? : It exceeds at the most a finite number of member of the set ?? .
Thus, while ?? ??? and ?? ??? .
Also, ?? is bounded above in as much as ?? is an upper bounded of the same. Let ?? the
least upper bound of
?? . Surely it exists by the order completeness properly of R.
We show that ?? is a limit point of ??
Consider a neighbourhood say ?? of ?? ,
?? ?(?? ,?? )???
Now the number ' ?? ' which is less than the least upper bound ?? of the set is not an
upper bound of ?? . Thus there exist a number, ?? (sequence) of ?? such that
?? <?? =?? ,?? ???
Also ?? being a member of ?? exceeds at not a finite number of member of ?? : It follower
and that the number ' ?? ' also exceeds at the most a finite a finite number of member of
?? .
Again the number ?? which is greater than ?? is an upper bound of ?? without being a
member of ?? . Thus must exceed an infinite number of member of ?? .
It follows that
(i) ' ?? ' exceeds at the most a finite number of member of ?? .
(ii) ' ?? ' exceeds an infinite number of members of ?? .
Thus, [?? ,?? ] contains an infinite number of member of ?? . So, that ?? is the limit of point of
?? .
Page 2
Edurev123
2. Sequences
2.1 Show that a bounded infinite subset of?R must have a limit point.
(2009 : 15 Marks)
Solution:
Let ?? be an infinite and bounded set. There exist and interval [?? ,?? ] such that ?? ?[?? ,?? ].
We define a set ?? as follows :
?? ??? : It exceeds at the most a finite number of member of the set ?? .
Thus, while ?? ??? and ?? ??? .
Also, ?? is bounded above in as much as ?? is an upper bounded of the same. Let ?? the
least upper bound of
?? . Surely it exists by the order completeness properly of R.
We show that ?? is a limit point of ??
Consider a neighbourhood say ?? of ?? ,
?? ?(?? ,?? )???
Now the number ' ?? ' which is less than the least upper bound ?? of the set is not an
upper bound of ?? . Thus there exist a number, ?? (sequence) of ?? such that
?? <?? =?? ,?? ???
Also ?? being a member of ?? exceeds at not a finite number of member of ?? : It follower
and that the number ' ?? ' also exceeds at the most a finite a finite number of member of
?? .
Again the number ?? which is greater than ?? is an upper bound of ?? without being a
member of ?? . Thus must exceed an infinite number of member of ?? .
It follows that
(i) ' ?? ' exceeds at the most a finite number of member of ?? .
(ii) ' ?? ' exceeds an infinite number of members of ?? .
Thus, [?? ,?? ] contains an infinite number of member of ?? . So, that ?? is the limit of point of
?? .
2.2 Discuss the convergence of the sequence {?? ?? } where ?? ?? =
?????? ?
????
?? ?? .
(2010 : 12 Marks)
Solution:
Given:
Sequence {?? ?? }={
1
8
,0,-
1
8
,0,
1
8
,0,-
1
8
,….}
So, the given sequence {?? ?? } assumes 3 values viz., 0,-
1
8
and
1
8
and is oscillatory in
nature.
?{?? ?? } does not converge.
2.3 Define {?? ?? } by ?? ?? =?? and ?? ?? +?? =v?? +?? ?? for ?? >?? . Show that the sequence
converges to
?? +v????
?? .
(2010 : 12 Marks)
Solution:
Given: ?? 1
=5 and ?? ?? +1
=v4+?? ?? for ?? >1
??
?? 2
?=v4+?? 1
=v4+5=v9=3
?? 3
?=v4+?? 2
=v4+3=v7
Let ?? =1
???????????????????????????????????????????????? 2
<?? 1
? True for ?? =1.
Let it is also true for ?? ??? .
?? ?? +1
?<?? ?? ?? ?? +1
+4 ?<?? ?? +4
v?? ?? +1
+4 ?<v?? ?? +4
?? ?? +2
?<?? ?? +1
? True for ?? +1 also.
So, by mathematical induction it is true for all ?? ??? .
?{?? ?? } is monotonically decreasing sequence.
Now,
Page 3
Edurev123
2. Sequences
2.1 Show that a bounded infinite subset of?R must have a limit point.
(2009 : 15 Marks)
Solution:
Let ?? be an infinite and bounded set. There exist and interval [?? ,?? ] such that ?? ?[?? ,?? ].
We define a set ?? as follows :
?? ??? : It exceeds at the most a finite number of member of the set ?? .
Thus, while ?? ??? and ?? ??? .
Also, ?? is bounded above in as much as ?? is an upper bounded of the same. Let ?? the
least upper bound of
?? . Surely it exists by the order completeness properly of R.
We show that ?? is a limit point of ??
Consider a neighbourhood say ?? of ?? ,
?? ?(?? ,?? )???
Now the number ' ?? ' which is less than the least upper bound ?? of the set is not an
upper bound of ?? . Thus there exist a number, ?? (sequence) of ?? such that
?? <?? =?? ,?? ???
Also ?? being a member of ?? exceeds at not a finite number of member of ?? : It follower
and that the number ' ?? ' also exceeds at the most a finite a finite number of member of
?? .
Again the number ?? which is greater than ?? is an upper bound of ?? without being a
member of ?? . Thus must exceed an infinite number of member of ?? .
It follows that
(i) ' ?? ' exceeds at the most a finite number of member of ?? .
(ii) ' ?? ' exceeds an infinite number of members of ?? .
Thus, [?? ,?? ] contains an infinite number of member of ?? . So, that ?? is the limit of point of
?? .
2.2 Discuss the convergence of the sequence {?? ?? } where ?? ?? =
?????? ?
????
?? ?? .
(2010 : 12 Marks)
Solution:
Given:
Sequence {?? ?? }={
1
8
,0,-
1
8
,0,
1
8
,0,-
1
8
,….}
So, the given sequence {?? ?? } assumes 3 values viz., 0,-
1
8
and
1
8
and is oscillatory in
nature.
?{?? ?? } does not converge.
2.3 Define {?? ?? } by ?? ?? =?? and ?? ?? +?? =v?? +?? ?? for ?? >?? . Show that the sequence
converges to
?? +v????
?? .
(2010 : 12 Marks)
Solution:
Given: ?? 1
=5 and ?? ?? +1
=v4+?? ?? for ?? >1
??
?? 2
?=v4+?? 1
=v4+5=v9=3
?? 3
?=v4+?? 2
=v4+3=v7
Let ?? =1
???????????????????????????????????????????????? 2
<?? 1
? True for ?? =1.
Let it is also true for ?? ??? .
?? ?? +1
?<?? ?? ?? ?? +1
+4 ?<?? ?? +4
v?? ?? +1
+4 ?<v?? ?? +4
?? ?? +2
?<?? ?? +1
? True for ?? +1 also.
So, by mathematical induction it is true for all ?? ??? .
?{?? ?? } is monotonically decreasing sequence.
Now,
?? 1
=5>2
?? 2
=3>2
?? 3
=v7>2
??
?? ?? +1
=v4+?? ?? >2 as ?? ?? >0
?{?? ?? } is bounded below.
As {?? ?? } is monotonically decreasing and bounded below, ? it is convergent.
Let it converges to ?? . (?? >0) .
????? ?? +1
=v4+?? ?? ???lim
?? ?8
??? ?? +1= lim
?? ?8
?v4+?? ?? ????? =v4+?? ????? 2
=4+?? ????? 2
-?? -4=0
????? =
1±v1+16
2
=
1±v17
2
Now, ??? >0
????? =
1+v17
2
2.4 Let ?? ?? (?? )=?? ?? on -?? <?? =?? for ?? =?? ,?? ,….. Find the limit function. is the
convergence uniform? Justify your answer.
(2010: 15 marks)
Solution:
Given :
?? ?? (?? )=?? ??
If ?? ?1 :
(?? ) = lim
?? ?8
??? ?? (?? )= lim
?? ?8
??? ?? =0 as |?? |<1
? |?? ?? (?? )-?? (?? )| =|?? ?? -0|=|?? ?? |
At sup. |?? ?? (?? )-?? (?? )|,
?? ????
(?? ?? ) =0
? ?? ?? ?? -1
=0 at ?? =0
At ?? =0, sup. |?? ?? (?? )-?? (?? )| =0.
So, limit function is 0 and is uniformly convergent.
At ?? =1,
Page 4
Edurev123
2. Sequences
2.1 Show that a bounded infinite subset of?R must have a limit point.
(2009 : 15 Marks)
Solution:
Let ?? be an infinite and bounded set. There exist and interval [?? ,?? ] such that ?? ?[?? ,?? ].
We define a set ?? as follows :
?? ??? : It exceeds at the most a finite number of member of the set ?? .
Thus, while ?? ??? and ?? ??? .
Also, ?? is bounded above in as much as ?? is an upper bounded of the same. Let ?? the
least upper bound of
?? . Surely it exists by the order completeness properly of R.
We show that ?? is a limit point of ??
Consider a neighbourhood say ?? of ?? ,
?? ?(?? ,?? )???
Now the number ' ?? ' which is less than the least upper bound ?? of the set is not an
upper bound of ?? . Thus there exist a number, ?? (sequence) of ?? such that
?? <?? =?? ,?? ???
Also ?? being a member of ?? exceeds at not a finite number of member of ?? : It follower
and that the number ' ?? ' also exceeds at the most a finite a finite number of member of
?? .
Again the number ?? which is greater than ?? is an upper bound of ?? without being a
member of ?? . Thus must exceed an infinite number of member of ?? .
It follows that
(i) ' ?? ' exceeds at the most a finite number of member of ?? .
(ii) ' ?? ' exceeds an infinite number of members of ?? .
Thus, [?? ,?? ] contains an infinite number of member of ?? . So, that ?? is the limit of point of
?? .
2.2 Discuss the convergence of the sequence {?? ?? } where ?? ?? =
?????? ?
????
?? ?? .
(2010 : 12 Marks)
Solution:
Given:
Sequence {?? ?? }={
1
8
,0,-
1
8
,0,
1
8
,0,-
1
8
,….}
So, the given sequence {?? ?? } assumes 3 values viz., 0,-
1
8
and
1
8
and is oscillatory in
nature.
?{?? ?? } does not converge.
2.3 Define {?? ?? } by ?? ?? =?? and ?? ?? +?? =v?? +?? ?? for ?? >?? . Show that the sequence
converges to
?? +v????
?? .
(2010 : 12 Marks)
Solution:
Given: ?? 1
=5 and ?? ?? +1
=v4+?? ?? for ?? >1
??
?? 2
?=v4+?? 1
=v4+5=v9=3
?? 3
?=v4+?? 2
=v4+3=v7
Let ?? =1
???????????????????????????????????????????????? 2
<?? 1
? True for ?? =1.
Let it is also true for ?? ??? .
?? ?? +1
?<?? ?? ?? ?? +1
+4 ?<?? ?? +4
v?? ?? +1
+4 ?<v?? ?? +4
?? ?? +2
?<?? ?? +1
? True for ?? +1 also.
So, by mathematical induction it is true for all ?? ??? .
?{?? ?? } is monotonically decreasing sequence.
Now,
?? 1
=5>2
?? 2
=3>2
?? 3
=v7>2
??
?? ?? +1
=v4+?? ?? >2 as ?? ?? >0
?{?? ?? } is bounded below.
As {?? ?? } is monotonically decreasing and bounded below, ? it is convergent.
Let it converges to ?? . (?? >0) .
????? ?? +1
=v4+?? ?? ???lim
?? ?8
??? ?? +1= lim
?? ?8
?v4+?? ?? ????? =v4+?? ????? 2
=4+?? ????? 2
-?? -4=0
????? =
1±v1+16
2
=
1±v17
2
Now, ??? >0
????? =
1+v17
2
2.4 Let ?? ?? (?? )=?? ?? on -?? <?? =?? for ?? =?? ,?? ,….. Find the limit function. is the
convergence uniform? Justify your answer.
(2010: 15 marks)
Solution:
Given :
?? ?? (?? )=?? ??
If ?? ?1 :
(?? ) = lim
?? ?8
??? ?? (?? )= lim
?? ?8
??? ?? =0 as |?? |<1
? |?? ?? (?? )-?? (?? )| =|?? ?? -0|=|?? ?? |
At sup. |?? ?? (?? )-?? (?? )|,
?? ????
(?? ?? ) =0
? ?? ?? ?? -1
=0 at ?? =0
At ?? =0, sup. |?? ?? (?? )-?? (?? )| =0.
So, limit function is 0 and is uniformly convergent.
At ?? =1,
?? ?? (?? )=1
?? ?8 as ?? ?8
? At ?? ?8
?? ?? (?? )={
0 if ?? ?(-1,1)
1 if ?? =1
? In the interval (-1,1],?? ?? (?? ) is discontinuous at ?? =1 when ?? ?8.
So, ?? ?? (?? ) is not uniformly convergent on (-1,1]
2.5 Let ?? ?? (?? )=???? (?? -?? )?? ,?? ?[?? ,?? ]. Examine the uniform convergence of {?? ?? (?? )}
on [?? ,?? ].
(2011 : 15 Marks)
Solution:
Given
?? ?? (?? )=???? (1-?? )
?? ,?? ?[0,1]
At ?? =0,??????????????????????????????????lim
?? ?8
??? ?? (?? )= lim
?? ?8
?0=0
At ?? =1, lim
?? ?8
??? ?? (?? )= lim
?? ?8
?0=0
For 0<?? <1, we have
-1?<-?? <0
0?<1-?? <1
???????????????????????????????????????????????????lim
?? ?8
??? ?? (?? )= lim
?? ?8
????? (1-?? )
?? =0=?? (?? ) (say)
??????????????????????????????????????????????????lim
?? ?8
??? ?? (?? )=0=?? (?? )??? ?[0,1]
Again, define
?? ?? = sup
?? ?[0,1]
?|?? ?? (?? )-?? (?? )|
Then, define
?? ?? = sup
?? ?[0,1]
?|?? ?? (?? )-?? (?? )|
Then, {?? ?? }? f uniformly ?lim
?? ?8
??? ?? =0
Now, ?? ?? =sup
?? ?[0,?? ]
?|???? (?? -?? )
?? |
Let
???????????????????????????????????????????????????????????
?? (?? )?=???? (1-?? )
?? '
(?? )?=?? (1-?? )
?? -?? 2
?? (1-?? )
?? -1
Page 5
Edurev123
2. Sequences
2.1 Show that a bounded infinite subset of?R must have a limit point.
(2009 : 15 Marks)
Solution:
Let ?? be an infinite and bounded set. There exist and interval [?? ,?? ] such that ?? ?[?? ,?? ].
We define a set ?? as follows :
?? ??? : It exceeds at the most a finite number of member of the set ?? .
Thus, while ?? ??? and ?? ??? .
Also, ?? is bounded above in as much as ?? is an upper bounded of the same. Let ?? the
least upper bound of
?? . Surely it exists by the order completeness properly of R.
We show that ?? is a limit point of ??
Consider a neighbourhood say ?? of ?? ,
?? ?(?? ,?? )???
Now the number ' ?? ' which is less than the least upper bound ?? of the set is not an
upper bound of ?? . Thus there exist a number, ?? (sequence) of ?? such that
?? <?? =?? ,?? ???
Also ?? being a member of ?? exceeds at not a finite number of member of ?? : It follower
and that the number ' ?? ' also exceeds at the most a finite a finite number of member of
?? .
Again the number ?? which is greater than ?? is an upper bound of ?? without being a
member of ?? . Thus must exceed an infinite number of member of ?? .
It follows that
(i) ' ?? ' exceeds at the most a finite number of member of ?? .
(ii) ' ?? ' exceeds an infinite number of members of ?? .
Thus, [?? ,?? ] contains an infinite number of member of ?? . So, that ?? is the limit of point of
?? .
2.2 Discuss the convergence of the sequence {?? ?? } where ?? ?? =
?????? ?
????
?? ?? .
(2010 : 12 Marks)
Solution:
Given:
Sequence {?? ?? }={
1
8
,0,-
1
8
,0,
1
8
,0,-
1
8
,….}
So, the given sequence {?? ?? } assumes 3 values viz., 0,-
1
8
and
1
8
and is oscillatory in
nature.
?{?? ?? } does not converge.
2.3 Define {?? ?? } by ?? ?? =?? and ?? ?? +?? =v?? +?? ?? for ?? >?? . Show that the sequence
converges to
?? +v????
?? .
(2010 : 12 Marks)
Solution:
Given: ?? 1
=5 and ?? ?? +1
=v4+?? ?? for ?? >1
??
?? 2
?=v4+?? 1
=v4+5=v9=3
?? 3
?=v4+?? 2
=v4+3=v7
Let ?? =1
???????????????????????????????????????????????? 2
<?? 1
? True for ?? =1.
Let it is also true for ?? ??? .
?? ?? +1
?<?? ?? ?? ?? +1
+4 ?<?? ?? +4
v?? ?? +1
+4 ?<v?? ?? +4
?? ?? +2
?<?? ?? +1
? True for ?? +1 also.
So, by mathematical induction it is true for all ?? ??? .
?{?? ?? } is monotonically decreasing sequence.
Now,
?? 1
=5>2
?? 2
=3>2
?? 3
=v7>2
??
?? ?? +1
=v4+?? ?? >2 as ?? ?? >0
?{?? ?? } is bounded below.
As {?? ?? } is monotonically decreasing and bounded below, ? it is convergent.
Let it converges to ?? . (?? >0) .
????? ?? +1
=v4+?? ?? ???lim
?? ?8
??? ?? +1= lim
?? ?8
?v4+?? ?? ????? =v4+?? ????? 2
=4+?? ????? 2
-?? -4=0
????? =
1±v1+16
2
=
1±v17
2
Now, ??? >0
????? =
1+v17
2
2.4 Let ?? ?? (?? )=?? ?? on -?? <?? =?? for ?? =?? ,?? ,….. Find the limit function. is the
convergence uniform? Justify your answer.
(2010: 15 marks)
Solution:
Given :
?? ?? (?? )=?? ??
If ?? ?1 :
(?? ) = lim
?? ?8
??? ?? (?? )= lim
?? ?8
??? ?? =0 as |?? |<1
? |?? ?? (?? )-?? (?? )| =|?? ?? -0|=|?? ?? |
At sup. |?? ?? (?? )-?? (?? )|,
?? ????
(?? ?? ) =0
? ?? ?? ?? -1
=0 at ?? =0
At ?? =0, sup. |?? ?? (?? )-?? (?? )| =0.
So, limit function is 0 and is uniformly convergent.
At ?? =1,
?? ?? (?? )=1
?? ?8 as ?? ?8
? At ?? ?8
?? ?? (?? )={
0 if ?? ?(-1,1)
1 if ?? =1
? In the interval (-1,1],?? ?? (?? ) is discontinuous at ?? =1 when ?? ?8.
So, ?? ?? (?? ) is not uniformly convergent on (-1,1]
2.5 Let ?? ?? (?? )=???? (?? -?? )?? ,?? ?[?? ,?? ]. Examine the uniform convergence of {?? ?? (?? )}
on [?? ,?? ].
(2011 : 15 Marks)
Solution:
Given
?? ?? (?? )=???? (1-?? )
?? ,?? ?[0,1]
At ?? =0,??????????????????????????????????lim
?? ?8
??? ?? (?? )= lim
?? ?8
?0=0
At ?? =1, lim
?? ?8
??? ?? (?? )= lim
?? ?8
?0=0
For 0<?? <1, we have
-1?<-?? <0
0?<1-?? <1
???????????????????????????????????????????????????lim
?? ?8
??? ?? (?? )= lim
?? ?8
????? (1-?? )
?? =0=?? (?? ) (say)
??????????????????????????????????????????????????lim
?? ?8
??? ?? (?? )=0=?? (?? )??? ?[0,1]
Again, define
?? ?? = sup
?? ?[0,1]
?|?? ?? (?? )-?? (?? )|
Then, define
?? ?? = sup
?? ?[0,1]
?|?? ?? (?? )-?? (?? )|
Then, {?? ?? }? f uniformly ?lim
?? ?8
??? ?? =0
Now, ?? ?? =sup
?? ?[0,?? ]
?|???? (?? -?? )
?? |
Let
???????????????????????????????????????????????????????????
?? (?? )?=???? (1-?? )
?? '
(?? )?=?? (1-?? )
?? -?? 2
?? (1-?? )
?? -1
??????????????????????????????????????????????????????????????????????=?? (1-?? )
?? -1
(1-?? -???? )
????????????????????????????????????????????????????????????? '
(?? )=0
?
?
??????????????????????? (1-?? )
?? -1
(1-?? -???? )=0
?? =
1
?? +1
??????????????????????????????????????????????????????????????? ?? =sup
?? ?[0,1]
?|???? (1-?? )
?? |
????????????????????????????????????????????????????????????????????=|?? ·
1
?? +1
·(1-
1
?? +1
)
?? |
?????????????????????????????????????????????????????????????????????=(
?? ?? +1
)
?? +1
????????????????????????????????????????????????lim
?? ?8
??? ?? =lim
?? ?8
?(
?? ?? +1
)
?? +1
?????????????????????????????????????????????????????????????????????=lim
?? ?8
?(
?? ?? +1
)
?? ·(
?? ?? +1
)
?????????????????????????????????????????????????????????????????????=lim
?? ?8
?(
1
1+
1
?? )
?? ·(
1
1+
1
?? )
=
1
?? ·1=
1
?? ?0
?[?? ?? (?? )] is not uniformly convergent on [0,1].
2.6 Two sequences {?? ?? } and {?? ?? } are defined inductively by the following :
?? ?? ?=
?? ?? ,?? ?? =?? and ?? ?? =v?? ?? +?? ?? +?? ,?? =?? ,?? ,?? ?? ?? ?? ?=
?? ?? (
?? ?? ?? +
?? ?? ?? -?? ),?? =?? ,?? ,?? ,….
Prove that ?? ?? -?? <?? ?? <?? ?? <?? ?? -?? ,?? =?? ,?? ,?? ,…. and deduce that both the
sequences comes to the same limit ?? , where
?? ?? <?? <?? .
(2016 : 10 Marks)
Solution:
Given:
Read More
|
387 videos|203 docs
|
FAQs on Sequences - Mathematics Optional Notes for UPSC
| 1. What are arithmetic sequences? |  |
Ans. Arithmetic sequences are a sequence of numbers in which the difference between consecutive terms is constant. Each term in an arithmetic sequence can be found by adding or subtracting the common difference from the previous term.
| 2. How can the nth term of an arithmetic sequence be found? | |
Ans. The nth term of an arithmetic sequence can be found using the formula: \( a_n = a_1 + (n-1)d \), where \(a_n\) is the nth term, \(a_1\) is the first term, \(n\) is the term number, and \(d\) is the common difference.
| 3. What is the sum of the first n terms of an arithmetic sequence? | |
Ans. The sum of the first n terms of an arithmetic sequence can be calculated using the formula: \( S_n = \frac{n}{2}(a_1 + a_n) \), where \(S_n\) is the sum of the first n terms, \(a_1\) is the first term, \(a_n\) is the nth term, and \(n\) is the number of terms.
| 4. How are arithmetic sequences different from geometric sequences? | |
Ans. Arithmetic sequences have a constant difference between consecutive terms, while geometric sequences have a constant ratio between consecutive terms. In arithmetic sequences, each term is found by adding the common difference, whereas in geometric sequences, each term is found by multiplying by the common ratio.
| 5. Can arithmetic sequences have negative terms? | |
Ans. Yes, arithmetic sequences can have negative terms. As long as the difference between consecutive terms remains constant, the sequence can include negative numbers.
Related Exams
About this Document
|
Nov 22, 2024 Last updated |
Document Description: Sequences for UPSC 2024 is part of Mathematics Optional Notes for UPSC preparation.
The notes and questions for Sequences have been prepared according to the UPSC exam syllabus. Information about Sequences covers topics
like and Sequences Example, for UPSC 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for Sequences.
Introduction of Sequences in English is available as part of our Mathematics Optional Notes for UPSC
for UPSC & Sequences in Hindi for Mathematics Optional Notes for UPSC course.
Download more important topics related with notes, lectures and mock test series for UPSC
Exam by signing up for free. UPSC: Sequences | Mathematics Optional Notes for UPSC
Description
Full syllabus notes, lecture & questions for Sequences | Mathematics Optional Notes for UPSC - UPSC | Plus excerises question with solution to help you revise complete syllabus for Mathematics Optional Notes for UPSC | Best notes, free PDF download
Information about Sequences
In this doc you can find the meaning of Sequences defined & explained in the simplest way possible. Besides explaining types of
Sequences theory, EduRev gives you an ample number of questions to practice Sequences tests, examples and also practice UPSC
tests
|
Explore Courses for UPSC exam
|
|
Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
Related Searches
study material
,past year papers
,Important questions
,MCQs
,Sample Paper
,Previous Year Questions with Solutions
,Exam
,Viva Questions
,Summary
,video lectures
,Objective type Questions
,Semester Notes
,shortcuts and tricks
,Sequences | Mathematics Optional Notes for UPSC
,Sequences | Mathematics Optional Notes for UPSC
,Free
,Extra Questions
,practice quizzes
,Sequences | Mathematics Optional Notes for UPSC
,ppt
,mock tests for examination
;
Additional Information about Sequences for UPSC Preparation
Sequences Free PDF Download
The Sequences is an invaluable resource that delves deep into the core of the UPSC exam.
These study notes are curated by experts and cover all the essential topics and concepts, making your preparation more efficient and effective.
With the help of these notes, you can grasp complex subjects quickly, revise important points easily,
and reinforce your understanding of key concepts. The study notes are presented in a concise and easy-to-understand manner,
allowing you to optimize your learning process. Whether you're looking for best-recommended books, sample papers, study material,
or toppers' notes, this PDF has got you covered. Download the Sequences now and kickstart your journey towards success in the UPSC exam.
Importance of Sequences
The importance of Sequences cannot be overstated, especially for UPSC aspirants.
This document holds the key to success in the UPSC exam.
It offers a detailed understanding of the concept, providing invaluable insights into the topic.
By knowing the concepts well in advance, students can plan their preparation effectively.
Utilize this indispensable guide for a well-rounded preparation and achieve your desired results.
Sequences Notes
Sequences Notes offer in-depth insights into the specific topic to help you master it with ease.
This comprehensive document covers all aspects related to Sequences.
It includes detailed information about the exam syllabus, recommended books, and study materials for a well-rounded preparation.
Practice papers and question papers enable you to assess your progress effectively.
Additionally, the paper analysis provides valuable tips for tackling the exam strategically.
Access to Toppers' notes gives you an edge in understanding complex concepts.
Whether you're a beginner or aiming for advanced proficiency, Sequences Notes on EduRev are your ultimate resource for success.
Sequences UPSC Questions
The "Sequences UPSC Questions" guide is a valuable resource for all aspiring students preparing for the
UPSC exam. It focuses on providing a wide range of practice questions to help students gauge
their understanding of the exam topics. These questions cover the entire syllabus, ensuring comprehensive preparation.
The guide includes previous years' question papers for students to familiarize themselves with the exam's format and difficulty level.
Additionally, it offers subject-specific question banks, allowing students to focus on weak areas and improve their performance.
Study Sequences on the App
Students of UPSC can study Sequences alongwith tests & analysis from the EduRev app,
which will help them while preparing for their exam. Apart from the Sequences,
students can also utilize the EduRev App for other study materials such as previous year question papers, syllabus, important questions, etc.
The EduRev App will make your learning easier as you can access it from anywhere you want.
The content of Sequences is prepared as per the latest UPSC syllabus.
|
© EduRev
|
Education Revolution
|
Follow Us
|
Signup to see your scores
go up within 7 days!
Access 1000+ FREE Docs, Videos and Tests
Takes less than 10 seconds to signup