JEE Exam  >  JEE Tests  >  Chapter-wise Tests for JEE Main & Advanced  >  Test: Previous Year Questions- Sequences & Series- 2 - JEE MCQ

Test: Previous Year Questions- Sequences & Series- 2 - JEE MCQ


Test Description

18 Questions MCQ Test Chapter-wise Tests for JEE Main & Advanced - Test: Previous Year Questions- Sequences & Series- 2

Test: Previous Year Questions- Sequences & Series- 2 for JEE 2024 is part of Chapter-wise Tests for JEE Main & Advanced preparation. The Test: Previous Year Questions- Sequences & Series- 2 questions and answers have been prepared according to the JEE exam syllabus.The Test: Previous Year Questions- Sequences & Series- 2 MCQs are made for JEE 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Previous Year Questions- Sequences & Series- 2 below.
Solutions of Test: Previous Year Questions- Sequences & Series- 2 questions in English are available as part of our Chapter-wise Tests for JEE Main & Advanced for JEE & Test: Previous Year Questions- Sequences & Series- 2 solutions in Hindi for Chapter-wise Tests for JEE Main & Advanced course. Download more important topics, notes, lectures and mock test series for JEE Exam by signing up for free. Attempt Test: Previous Year Questions- Sequences & Series- 2 | 18 questions in 18 minutes | Mock test for JEE preparation | Free important questions MCQ to study Chapter-wise Tests for JEE Main & Advanced for JEE Exam | Download free PDF with solutions
Test: Previous Year Questions- Sequences & Series- 2 - Question 1

 (a) Consider an infinite geometric series with first term a and common ratio r. If the sum is 4 and the second term is 3/4, then        [JEE 2000, (scr.), 1 + 1]

(A) a = , r =  (B) a = 2, r =  (C) a = , r =  (D) a = 3, r = 

(b) If a, b, c, d are positive real numbers such that a + b + c + d = 2, then M = (a + b) (c + d) satisifes the relation :

(A) 0 £ M £ 1 (B) 1 £ M £ 2 (C) 2 £ M £ 3 (D) 3 £ M £ 4

(c) The fourth power of the common difference of an arithmetic progression with integer entries added to the product of any four consecutive terms of it. Prove that the resulting sum is the square of an integer. [JEE 2000, (Mains), 4]


Test: Previous Year Questions- Sequences & Series- 2 - Question 2

Given that a, g are roots of the equation, Ax2_4x+1 =0 and b, d the roots of the equation, Bx2 _ 6x + 1 = 0, find values of A and B, such that a, b, g & d are in H.P.       [REE 2000, 5]


1 Crore+ students have signed up on EduRev. Have you? Download the App
Test: Previous Year Questions- Sequences & Series- 2 - Question 3

 The sum of roots of the equation ax2 + bx + c = 0 is equal to the sum of squares of their reciprocals. Find whether bc2, ca2 and ab2 in A.P., G.P. or H.P. ?       [ree 2001, 3]


Test: Previous Year Questions- Sequences & Series- 2 - Question 4

Solve the following equations for x and y log2x + log4x + log16x +..............

........... = y  = 4log4 x     [ree 2001, 5]


Test: Previous Year Questions- Sequences & Series- 2 - Question 5

a) Le a, b be the roots of x2 _ x + p = 0 and g, d the roots of x2 _ 4x + q = 0. If a, b, g, d are in G.P., then the integral values of p and q respectively, are

(A) _2, _32 (B) _2, 3 (C) _6, 3 (D) _6. _ 32

(b) If the sum of the first 2n terms of the A.P. 2, 5, 8,... ..........is equal to the sum of the first n terms of the A.P. 57, 59, 61,......., then n equals

(A) 10 (B) 12 (C) 11 (D) 13

(c) Let the positive numbers a, b, c, d be in A.P. Then abc, abd, acd, bcd are [Jee 2001, (Scr.) 1 + 1 + 1]

(A) NOT in A.P./G.P./ H.P. (B) in A.P. (C) in G.P. (D) in H.P.

(d) Let a1, a2,..... be positive real numbers in G.P. For each n, let An, Gn, Hn be respectively, the arithmetic mean, geometric mean, and harmonic mean of a1, a2,..........., an. Find an expression for the G.M. of G1, G2,............, Gn in terms of A1, A2,...........,An, H1, H2,........,Hn.                 [JEE 2001 (Mains), 5]


Test: Previous Year Questions- Sequences & Series- 2 - Question 6

 (a) Suppose a, b, c are in A.P. and a2, b2, c2 are in G.P. if a < b < c and a + b + c = 3/2, then the value of a is [JEE 2002 (Scr.), 3]

(A)  (B)  (C)  (D) 

(b) Let a, b be positive real numbers. If a, A1, A2,b are in A.P. ; a, G1, G2, b are in G.P. and a, H1, H2, b are in H.P. show that=.                    [JEE 2002 (Mains), 5]


Test: Previous Year Questions- Sequences & Series- 2 - Question 7

The first term of an infinite geometric progression is x and its sum is 5. Then         [JEE 2004 (Scr.)]

Test: Previous Year Questions- Sequences & Series- 2 - Question 8

(a) In the quadratic equation ax2 + bx + c = 0, If D = b2 _ 4ac and a + b, a2 + b2, a3+ b3, are in G.P. where a, b are the roots of ax2 + bx + c = 0, then [JEE 2005 (Scr.)]

(A) D ¹ 0 (B) bD = 0 (C) cD = 0 (D) D = 0

(b) If total number of runs scored in n matches is  (2n+1 _ n _ 2) where n > 1, and the runs scored in the kth match are given by k.2n+1_k, where 1 £ k £ n. Find n.               [JEE 2005 (Mains), 2]


Test: Previous Year Questions- Sequences & Series- 2 - Question 9

 If An =  _  + ............(_1)n _ 1 and Bn = 1 _ An, then find the minimum natural number n0 such that Bn > An n > n0.           [JEE 2006, 6]


Test: Previous Year Questions- Sequences & Series- 2 - Question 10

 Let Vr denote the sum of first r terms of an arithmetic progression (A.P.) whose first term is r and the common difference is (2r _ 1). Let Tr = V r + 1 _ Vr _ 2 and Qr= Tr + 1 _ Tr for r = 1, 2,.....

(a) The sum V1 + V2 + ....... + Vn is

(A) n(n+1)(3n2 _n+1) (B) n(n+1)(3n2+n+2) (C) n (2n2_n+1) (D) (2n3_2n+3)

(b) Tr is always

(A) an odd number (B) an even number (C) a prime number (D) a composite number

(c) Which one of the following is a correct statement ?

(A) Q1, Q2, Q3,.... are in A.P., with common difference 5

(B) Q1, Q2, Q3,.... are in A.P., with common difference 6

(C) Q1, Q2, Q3,.... are in A.P., with common difference 11

(D) Q= Q= Q=....                                                        [JEE 2007, 4 + 4 + 4]


Test: Previous Year Questions- Sequences & Series- 2 - Question 11

 Let A1, G1, H1 denote the arithmetic, geometric and harmonic means, respectively, of two distinct positive numbers. For n ³ 2, Let An _ 1 and Hn _ 1 have arithmetic, geometric and harmonic means as An, Gn, Hn respectively

(a) Which one of the following statements is correct ?

(A) G1 > G2 > G3 > ........ (B) G1 < G2 < G3 < ........

(C) G1 = G2 = G3 = ........ (D) G1 < G3 < G5 < ...... and G2 > G4 > G6 > ......

(b) Which one of the following statement is correct ?

(A) A1 > A2 > A3 > ........ (B) A1 < A2 < A3 < ........

(C) A1 > A3 > A5 > .....and A2 < A4 < A6 < ........ (D) A1 < A3 < A5 < .....and A2 > A4 > A6 > ........

(c) Which one of the following statement is correct ?            [JEE 2007, 4 + 4 + 4]

(A) H1 > H2 > H3 > ........ (B) H1 < H2 < H3 < ........

(C) H1 > H3 > H5 > .....and H2 < H4 < H6 < ........ (D) H1 < H3 < H5 < .....and H2 > H4 > H6 > ........


Test: Previous Year Questions- Sequences & Series- 2 - Question 12

(a) A straight line through the vertex P of a triangle PQR intersects the side QR at the point S and the circumcircle of the triangle PQR at the point T. If S is not the centre of the circumcircle, then     [JEE 2008, 4]

(A)  (B)  (C)  (D) 

(b) Supose four distinct positive numbers a1, a2, a3, a4 are in G.P. Let b1 = a1, b2 = b1 + a2, b3 = b2 + a3 and b4 = b3 + a4. [JEE 2008, 3]

Statement_1 : The numbers b1, b2, b3, b4 are neither in A.P. nor in G.P.

Statement_2 : The numbers b1, b2, b3, b4 are in H.P.

(A) Statement (1) is true and statement (2) is true and statement (2) is correct explanation for (1)

(B) Statement (1) is true and statement (2) is true and statement (2) is NOT correct explanation for (1)

(C) Statement (1) is true but (2) is false

(D) Statement (1) is false but (2) is true


Test: Previous Year Questions- Sequences & Series- 2 - Question 13

 If the sum of first n terms of an A.P. is cn2, then the sum of squares of these n terms is    [JEE 2009, 3]

Detailed Solution for Test: Previous Year Questions- Sequences & Series- 2 - Question 13

Sn = cn2
S(n−1) = c(n−1)2
= cn2+c−2cn
Tn = 2cn − c
Tn2 = (2cn−c)2
= 4c2n2 + c2 − 4c2 n
Required sum = ∑Tn2 = 4c2 ∑n2 +nc2 −4c2 ∑n
{4c2n(n+1)(2n+1)}/6 + nc2−2c2n(n+1)
= (2c2n(n+1)(2n+1)+3nc2−6c2n(n+1))/3
​= {nc2[4n2+6n+2+3−6n−6]}/3
​= [nc2(4n2−1)]/3

*Answer can only contain numeric values
Test: Previous Year Questions- Sequences & Series- 2 - Question 14

 Let Sk, K = 1, 2, ...., 100 denote the sum of the infinite geometric series whose first term is  and the common ratio is 1/k. Then the value of  is        [JEE 2010]


Detailed Solution for Test: Previous Year Questions- Sequences & Series- 2 - Question 14

Infinite Sum of GP S = a/(1−r) = (k−1)/[k!(1−1/k)] = 1/(k−1)!
​(100)2/100! + ∑k=(1 to 100)|(k2−3k+1)Sk|
(100)2/100! + ∑k=(1 to 100) [(k-1)^2 k[(1/(k-1)!]
(100)2/100! + ∑k=(2 to 100)|[(k-1)/(k-2)! - k/(k-1)!|
(100)2/100! 2/1! - 1/0 + 2/1! - 3/2! + 3/2! +.....+ 99/98! - 100/99!
= (100)2/100! + 2 - 1 + 2 - dfrac{100 * 100}{99! * 100}
= 3

*Answer can only contain numeric values
Test: Previous Year Questions- Sequences & Series- 2 - Question 15

 Let a1, a2, a3, ....., a11 be real numbers satisfying

a1 = 15, 27 _ 2a2 > 0 and ak = 2ak-1 _ ak-2 for k = 3, 4, ...., 11

If , then the value of  is equal to        [JEE 2010]


*Answer can only contain numeric values
Test: Previous Year Questions- Sequences & Series- 2 - Question 16

 The minimum value of the sum of real numbers a_5, a_4, 3a_3, 1, a8 and a10 with a > 0 is    [JEE 2011]


*Answer can only contain numeric values
Test: Previous Year Questions- Sequences & Series- 2 - Question 17

 Let a1, a2, a3, ..., a100 be an arithmetic progression with a1 = 3 and Sp = , 1 £ p £ 100. For any integer n with 1 £ n £ 20. let m=5n. Ifdoes not depend on n, then a2 is     [JEE 2011]


Test: Previous Year Questions- Sequences & Series- 2 - Question 18

Let a1, a2, a3, ..... be in harmonic progression with a1 = 5 and a20 = 25. The least positive integer n for which an < 0 is         [JEE 2012]

Detailed Solution for Test: Previous Year Questions- Sequences & Series- 2 - Question 18

447 docs|930 tests
Information about Test: Previous Year Questions- Sequences & Series- 2 Page
In this test you can find the Exam questions for Test: Previous Year Questions- Sequences & Series- 2 solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Previous Year Questions- Sequences & Series- 2, EduRev gives you an ample number of Online tests for practice

Top Courses for JEE

Download as PDF

Top Courses for JEE