JEE Exam  >  JEE Tests  >  Chapter-wise Tests for JEE Main & Advanced  >  JEE Advanced Level Test: Sequences And Series- 2 - JEE MCQ

JEE Advanced Level Test: Sequences And Series- 2 - JEE MCQ


Test Description

30 Questions MCQ Test Chapter-wise Tests for JEE Main & Advanced - JEE Advanced Level Test: Sequences And Series- 2

JEE Advanced Level Test: Sequences And Series- 2 for JEE 2024 is part of Chapter-wise Tests for JEE Main & Advanced preparation. The JEE Advanced Level Test: Sequences And Series- 2 questions and answers have been prepared according to the JEE exam syllabus.The JEE Advanced Level Test: Sequences And Series- 2 MCQs are made for JEE 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for JEE Advanced Level Test: Sequences And Series- 2 below.
Solutions of JEE Advanced Level Test: Sequences And Series- 2 questions in English are available as part of our Chapter-wise Tests for JEE Main & Advanced for JEE & JEE Advanced Level Test: Sequences And 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 JEE Advanced Level Test: Sequences And Series- 2 | 30 questions in 60 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
JEE Advanced Level Test: Sequences And Series- 2 - Question 1

If ar > 0, r ∈ N and a1, a2 , a3 , .............a2n are A.P. then

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 1

a1 + a2n = a2 + a2n-1 = an + an-1 = K(say)

JEE Advanced Level Test: Sequences And Series- 2 - Question 2

If a, b, c, d, e, f are in A.P., then e-c is equal to

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 2

a + f = b + e = c + d

1 Crore+ students have signed up on EduRev. Have you? Download the App
JEE Advanced Level Test: Sequences And Series- 2 - Question 3

If the roots of the cubic equation ax3 + bx2 + cx + d = 0 are in G.P., then

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 3

Let
If α, β,and γ are the three roots then we must have
ax3 + bx2 + cx + d = a(x−α)(x−β)(x−γ)
Comparing coefficients of various power of x on both sides leads to
α + β + γ = −b/a −−−−(1)
αβ + βγ + γα = c/a −−−−(2)
αβγ= −d/a−−−(3)
On substituting β = αr and γ = αr2 we get
α(1+r+r2) = −b/a−−−(4)
α2(r+r2 + r3) = c/a−−(5)
α3/r3 = -d/a−−−−−(6)
Now, dividing (5) by (4) to αr=− c/b and substituting this in(6)weget
(−c/b)3 = -d/a
⇒ c3/b3 = -d/a
∴ c3a = b3d

JEE Advanced Level Test: Sequences And Series- 2 - Question 4

If one A.M. a and two G.M.’s p and q be inserted between any two numbers, then the value of p3 + q3 is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 4

Let x and y be two positive numbers. Since a is the single A.M. between x and y
∴ 
It is given that p and q are two geometric means between x and y common ratio r given by 
r = (y/x)1/3
∴ p = xr = x2/3 y1/3 and q = xr2 = x1/3y2/3
⇒ p3 +q3 = x2y + xy2 = xy(x+y) = 2axy = 2a pq

JEE Advanced Level Test: Sequences And Series- 2 - Question 5

If –1 < a, b, c < 1 and a, b, c are in A.P. and  then x, y, z are in

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 5

JEE Advanced Level Test: Sequences And Series- 2 - Question 6

Value of

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 6

JEE Advanced Level Test: Sequences And Series- 2 - Question 7

Number of positive integral ordered pairs of (a, b) such that 6, a, b are in H.P is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 7

6, a bare in H.P 
 are in A.P.

JEE Advanced Level Test: Sequences And Series- 2 - Question 8

If exp {(sin2x +sin4x + sin6x + upto ∞)loge2} satisfies the equation x2 – 17x + 16 = 0 then the value of (0 < x < π/2) is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 8

JEE Advanced Level Test: Sequences And Series- 2 - Question 9

If tn denotes nth term of the series 2 + 3 + 6 + 11 + 18 + ..... then t50

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 9

(2+0) + (2+12) + (2+22) + (2 32)+...
∴ tn = 2+(n-1)2

JEE Advanced Level Test: Sequences And Series- 2 - Question 10

If a, 8, b are in A.P., a, 4, b are in G.P; a, x, b are in H.P then x =

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 10

a + b = 16 and ab = 16 and 2/x = 1/a + 1/b

JEE Advanced Level Test: Sequences And Series- 2 - Question 11

If a, b, c are in H.P., then the straight line  always passes through a fixed point. That point is 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 11

a,b,c are in H.P
∴1/a , 1/b , 1/care in A.P
∴2/b= 1/a+1/c_______ (1)
∴ x/a+y/b+1/c=0 ________ (2)
∴ From (1)
1/a+1/c−2/b=0 ______ (3)
∴ From (2) & (3)
We infer that,
(x=1,y=−2)
∴ Point is (1,−2)

JEE Advanced Level Test: Sequences And Series- 2 - Question 12

Let x be the arithmetic mean and y, z be the two geometric means between any two positive numbers. Then value of 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 12

Given that  and a, y, z, b are in G.P. 

JEE Advanced Level Test: Sequences And Series- 2 - Question 13

If a, a1, a2, a3, a4, ......, a2n, b are in AP and a, g1, g2, g3, g4,........g2n, b are in GP and h is the HM of a and b then is equal to

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 13

a + b = a1 +a2n = a2 + a2n-1 = and ab = g1g2n = g2g2n-1 .... and

JEE Advanced Level Test: Sequences And Series- 2 - Question 14

The arithmetic mean between 2+√(2) and 2-√(2) is

JEE Advanced Level Test: Sequences And Series- 2 - Question 15

If cos (x, -y), cos x and cos (x + y) are in H.P, then value of cos x sec (y/2) is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 15

cos(x-y), cosx, cos(x+y)
cos x = [2cos(x-y)cos(x+y)]/2cosx cosy
= [cos2x cos2y - sin2x sin2y]/cosx cosy
=> cos2x cosy = cos2x cos2y - sin2x sin2y
= cos2x cos2y(1 - cos2x - cos2y + cos2x  cos2y)
= cos2x cosy = cos2x + cos2y - 1
cos2x = cos(y+1)
cos2x = 2cos2(y/2)
cosx sec(y/2) = +- (2)1/2

JEE Advanced Level Test: Sequences And Series- 2 - Question 16

If a, b, c are in G.P., then the equations ax2 + 2bx + c = 0 and dx2 + 2ex + f = 0 have a common root if a/d, b/e, c/f are in

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 16

b2 = ac 
ax2 + 2bx+c = 0 

JEE Advanced Level Test: Sequences And Series- 2 - Question 17

then a, b, c, d are in

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 17

2a/2bey = 2b/2cey = 2c/2dey
= a/bey = b/cey = c/dey = k
a/b = b/c = c/d = key = k'
a=bk', b=ck',  c = dk'
b = (dk')k'
b = d(k')2
a = bk' = d(k')2 k'
= d(k')3
a,b,c,d ⇒ d(k')3, d(k')2, d(k'), d
G.P. sequence

JEE Advanced Level Test: Sequences And Series- 2 - Question 18

If a, b, c, d, x are real and the roots of equation (a2 + b2 + c2)x2 - 2 (ab + bc + cd)x + (b2 + c2 + d2) = 0 real and equal, then a, b, c, d are in

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 18

Roots are real and equal
⇒ (a2 + b2 + c2) (b2 + c2 + d2)-(ab + bc + cd)2 = 0 
⇒ b2 = ac, c2 = bd, ac = bd
⇒ a, b, c, d are in G.P

JEE Advanced Level Test: Sequences And Series- 2 - Question 19

The natural numbers are divided into groups 1, (2, 3), (4, 5, 6), (7, 8, 9, 10)....; then the sum of the numbers in the 50th group is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 19

1
2 3
4 5 6
7 8 9 10
..........
Series for starting number:
1, 2, 4, 7, ...
Let  Tn = an2 + bn + c
a+b+c=1                         ......(1)
4a+2b+c=2                   ......(2)
9a+3b+c=4                   .......(3)
From eq (1), (2), (3), we get:
a= 1/2, b= −1/2, c=1
∴ Tn = n2/2 − n/2 + 1
∴ T50 = (50)2/2 − 50/2 + 1 = 1226
Now, elements in 50th group:
1226, 1227, 1228,.....(50 terms)
∴ Sn = 50/2[2×1226+(50−1)×1]
= 62525

JEE Advanced Level Test: Sequences And Series- 2 - Question 20

If a, b and c are in G.P., then the equations ax2 + 2bx + c = 0 and dx2 + 2ex + f = 0 have a common root 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 20

a + ar + ar2 = x.ar
Or, r2 + r (1 - x) + 1 = 0, r is real
Δ > 0 i.e. (1 - x )2 - 4 > 0
Or, x2 - 2x - 3 > 0
Or, (x + 1) ( x - 3) > 0
⇒ x < -1 or x > 3

JEE Advanced Level Test: Sequences And Series- 2 - Question 21

Suppose a, b, c are in A.P. a2, b2, c2 are in G.P. If a < b < c and a b c and a + b + c = 3/2, then the value of a is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 21

2b = a + c ….. (i)
b4 = ac2 or b2 = ± ac .....(ii)
Here 
a+b+c = 3/2
⇒ 3b = 3/2 or b = 1/2
from (i)
From (i), a+c = 1

From (ii) 
Solving this we get

JEE Advanced Level Test: Sequences And Series- 2 - Question 22

The question should be:If the ratio of  nth terms of two A.P.'s is (2n+8):(5n−3), then the ratio of the sums of their n terms is 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 22

JEE Advanced Level Test: Sequences And Series- 2 - Question 23

H1, H2 are 2 H.M.’s between a, b then 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 23

From synopsis

JEE Advanced Level Test: Sequences And Series- 2 - Question 24

The number of common terms in two A.P’s 2, 7, 12, 17............. 500 terms and 1, 8, 15, 22,..........300 terms is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 24

For the first AP, a =2, d = 5
Hence, any nth term would be given by 2+(n-1)5 = 5n-3
Also, since 500 is the last term, so, 500 = 5n-3 i.e. maximum value of n can be 100
 
For the second AP, a = 1, d = 7
Hence any mth term would be given by 1+(m-1)7 = 7m - 6
Also, since 300 is the last terms, so, 300 = 7m-6 i.e. maximum value of m can be 41
 
To find the terms common to both the APs, we can equate the nth term of first AP to the mth term of the second AP
5n -3 = 7m-6
5n = 7m-3
 
Now, since n is a whole number, so 7m-3 needs to be divisible by 5
So, then, m can be equal to all multiples of 5 till 102 i.e. 5, 10, 15, 20, 25, 30, ......100
So, the number of terms common to the 2 APs would be 60.

JEE Advanced Level Test: Sequences And Series- 2 - Question 25

If log 2, log (2x - 1) and log (2x + 3) are in AP, then the value of x is given by

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 25

t is given that
log2,log(2x -l),log (2x + 3) are in A.P.
⇒ 2log (2x-l) = log 2 + log (2x + 3)
⇒(2x -1)2 = 2 (2x + 3)
⇒ (2x)2 -4(2x)-5 = 0
⇒ (2x - 5)(2x + 1) = 0 ⇒ 2x = 5 ⇒ x = log25

JEE Advanced Level Test: Sequences And Series- 2 - Question 26

If a1, a2 , a3...........an are in HP then a1a2 + a2a3 + a3a4 + ..... + an-1an =

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 26

 1/ar = 1/a1-r + d
d ar ar-1 = ar-1 - ar
ar ar-1 = (ar-1 - ar)/d
Σ(r = 2 to n) ar ar-1 = (a1 - an)/d
⇒ 1/an = 1/a1 + (n-1)d
⇒ (a1 - an)/d = (n-1)a1an

JEE Advanced Level Test: Sequences And Series- 2 - Question 27

Let a1, a2, ..... a10 be in A.P. and h1, h2, ......h10 be in H.P. If a1 = h1 = 2 and a10 = h10 = 3, then a4h7 is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 27

Let ‘d’ is common difference of A.P
∴ 3 = a10
 
Let ‘D’ is common difference of 
∴ 

JEE Advanced Level Test: Sequences And Series- 2 - Question 28

The sum to 50 terms of the series 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 28

Sum of Squares:  n(n+1)(2n+1)6 
Therefore the denominator can be simplified using this formula,
= 3 + (5⋅6)/(2⋅3⋅5) + (7⋅6)/(3⋅4⋅7) + ⋯+ (101⋅6)/(50⋅51⋅101) 
= 3 + 6[(2⋅3)+6(3⋅4)+⋯+6/(50⋅51)] 
= 3 + 6[1/(2⋅3)+1/(3⋅4)+⋯+1/(50⋅51)] 
= 3 + 6[1/2−1/3+1/3+1/4+⋯+1/50−1/51] 
= 3 + 6[1/2−1/51] 
= 3 + 6(51−2)/(51⋅2) 
= 3 + 49/17 
= 100/17

JEE Advanced Level Test: Sequences And Series- 2 - Question 29

The value of 

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 29

= r(-a)r + a(r+1) (-a)r
= r(-a)r - (r+1) (-a)(r+1)
Tr = Vr - Vr+1
T1 = V1 - V2
T2 = V2 - V3
T3 = V3 - V4
.
.
.
.
.
Tn = Vn - V(n+1)
S = (r = 1 to n) Tr = V0 - V(n+1)
= (-1)n (n+1)(-a)(n+1)
 

JEE Advanced Level Test: Sequences And Series- 2 - Question 30

If the sum to infinity of the series 1 + 2r + 3r2 + 4r3 + ... is 9/4, then value of r is

Detailed Solution for JEE Advanced Level Test: Sequences And Series- 2 - Question 30

9/4 = 1 + 2r + 3r2 + 4r3 ⋯→(1)
By mutiplying above equation by r, we get,
9/4r = r + 2r2 + 3r3 + 4r4 ⋯→(2)
Subtracting (2) from (1) by shifting one place, we get
9/4(1−r) = 1 + r + r2 + r3 + r4 .......
The above equation becomes ,
9/4(1−r) = 1/(1−r)
​(1−r)2 = 4/9
Hence, we get
r = ⅓

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

Top Courses for JEE

Download as PDF

Top Courses for JEE