Sequences and Series MCQ Quiz - Objective Question with Answer for Sequences and Series - Download Free PDF

Last updated on May 20, 2025

Latest Sequences and Series MCQ Objective Questions

Sequences and Series Question 1:

The harmonic mean of 9, 21 and 49 is closest to :

  1. 16.7
  2. 17.2
  3. 17.8
  4. 18.5

Answer (Detailed Solution Below)

Option 1 : 16.7

Sequences and Series Question 1 Detailed Solution

Given:

The numbers are 9, 21, and 49, and we need to find the harmonic mean of these three numbers.

Formula used:

The harmonic mean (H) of n numbers a1, a2, ..., an is given by:

H = n / (1/a1 + 1/a2 + ... + 1/an)

Calculations:

We have three numbers: 9, 21, and 49. The harmonic mean formula becomes:

H = 3 / (1/9 + 1/21 + 1/49)

First, calculate the reciprocals of the numbers:

1/9 ≈ 0.1111, 1/21 ≈ 0.0476, 1/49 ≈ 0.0204

Now, add the reciprocals:

0.1111 + 0.0476 + 0.0204 = 0.1791

Now, calculate the harmonic mean:

H = 3 / 0.1791 ≈ 16.7

∴ The harmonic mean of 9, 21, and 49 is closest to 16.7.

Sequences and Series Question 2:

Let the geometric mean of 27, 60, 108, 150 and 225 be x, then, what is the harmonic mean of x and 60?

  1. 54
  2. 60
  3. 72
  4. 80 

Answer (Detailed Solution Below)

Option 3 : 72

Sequences and Series Question 2 Detailed Solution

Given:

The numbers are 27, 60, 108, 150, and 225, and the geometric mean is denoted by x. We need to find the harmonic mean of x and 60.

Formula used:

Geometric mean (x) = (Product of numbers)^(1/n), where n is the number of terms, and the numbers are the given values.

Harmonic mean (H) of two numbers a and b is given by:

H = 2ab / (a + b)

Calculations:

Find the geometric mean (x) of the numbers 27, 60, 108, 150, and 225.

x = (27 × 60 × 108 × 150 × 225)(1/5)

x = (3 × 3 × 3 × 3 × 2 × 2 × 5 × 3 × 3 × 3 × 2 × 2 × 3 × 5 × 2 × 5 × 3 × 5 × 3 × 5)(1/5)

x = (310 × 25 × 55)(1/5)

x = 32 × 2 × 5

x = 90

Find the harmonic mean of x and 60.

Now that we know x = 90, we can find the harmonic mean of x and 60:

H = 2 × 90 × 60 / (90 + 60)

H = 10800 / 150

H = 72

∴ The harmonic mean of x and 60 is 72.

Sequences and Series Question 3:

If f is a function satisfying f(x+y)=f(x)f(y) for all xyN such that f(1)=3 and  f(x) = 120 , then the value of n is:

  1. 5
  2. 6
  3. 4
  4. 8

Answer (Detailed Solution Below)

Option 3 : 4

Sequences and Series Question 3 Detailed Solution

Concept:

Geometric Progression (G.P.): A sequence where each term is obtained by multiplying the previous term by a constant called the common ratio.

Sum of n terms (Sn) of G.P. is given by:

  • a: First term of the G.P.
  • r: Common ratio of the G.P.
  • n: Number of terms in the series

 

Calculation:

Given, f(1) = 3

Using the property:

⇒ f(2) = f(1 + 1) = f(1) × f(1) = 3 × 3 = 9

⇒ f(3) = f(1 + 2) = f(1) × f(2) = 3 × 9 = 27

⇒ f(4) = f(1 + 3) = f(1) × f(3) = 3 × 27 = 81

So, = 3, 9, 27, 81, … forms a G.P. with a = 3 and r = 3

Given,

∴ The value of n is 4.

Sequences and Series Question 4:

The third term of GP is 4. Find the product of its first 5 terms ?

  1. 44
  2. 54
  3. 45
  4. 46
  5. None of the above

Answer (Detailed Solution Below)

Option 3 : 45

Sequences and Series Question 4 Detailed Solution

Concept:

Let us consider sequence a1, a2, a3 …. an is a G.P.

  • Common ratio = r = 
  • nth  term of the G.P. is an = arn−1

 

Calculation:

Given: Third term of GP = 4

So, a= ar2 = 4

Now, product of five time term is given by  = a ×  ar × ar2  × ar3 ×ar4   

= a5r10  

= (ar2)5 

= 45

Sequences and Series Question 5:

The sequence P1, P2, P3, ..... is defined by P1 = 211, P2 = 375, P3 = 420, P4 = 523, and Pn = Pn-1 - Pn-2 + Pn-3 - Pn-4 for all n ≥ 5. What will be the value of P531 + P753 + P975

  1. 898
  2. 631
  3. 364
  4. 544
  5. 789

Answer (Detailed Solution Below)

Option 1 : 898

Sequences and Series Question 5 Detailed Solution

Top Sequences and Series MCQ Objective Questions

The sum of the series 5 + 9 + 13 + … + 49 is:

  1. 351
  2. 535
  3. 324
  4. 435

Answer (Detailed Solution Below)

Option 3 : 324

Sequences and Series Question 6 Detailed Solution

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Concept:

Arithmetic Progression (AP):

  • The sequence of numbers where the difference of any two consecutive terms is same is called an Arithmetic Progression.
  • If a be the first term, d be the common difference and n be the number of terms of an AP, then the sequence can be written as follows:
    a, a + d, a + 2d, ..., a + (n - 1)d.
  • The sum of n terms of the above series is given by:
    Sn = 

 

Calculation:

The given series is 5 + 9 + 13 + … + 49 which is an arithmetic progression with first term a = 5 and common difference d = 4.

Let's say that the last term 49 is the nth term.

∴ a + (n - 1)d = 49

⇒ 5 + 4(n - 1) = 49

⇒ 4(n - 1) = 44

⇒ n = 12.

And, the sum of this AP is:

S12

=  = 54 × 6 = 324.

Answer (Detailed Solution Below)

Option 3 :

Sequences and Series Question 7 Detailed Solution

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Concept:

Expansion of ex:

 

Calculation:

Put x = -1,

The third term of a G.P. is 9. The product of its first five terms is

  1. 35
  2. 39
  3. 310
  4. 312

Answer (Detailed Solution Below)

Option 3 : 310

Sequences and Series Question 8 Detailed Solution

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Concept:

Five terms in a geometric progression:

If a G.P. has first term a and common ratio r then the five consecutive terms in the GP are of the form  .

 

Calculation:

Let us consider a general geometric progression with common ratio r.

Assume that the five terms in the GP are .

It is given that third term is 9.

Therefore, a = 9.

Now the product of the five terms is given as follows:

But we know that a = 9.

Thus, the product is .

Find sum of 

  1. n(n + 1)
  2. None of these 

Answer (Detailed Solution Below)

Option 2 :

Sequences and Series Question 9 Detailed Solution

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Find the sum to n terms of the A.P., whose nth term is 5n + 1

  1.  (7+ 4n)
  2.  (7+ 5n)
  3. None of these

Answer (Detailed Solution Below)

Option 3 :  (7+ 5n)

Sequences and Series Question 10 Detailed Solution

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Concept:

For AP series, 

Sum of n terms  =  (First term + nth term)

Calculations:

We know that, For AP series, 

the sum of n terms  =  (First term + nth term)

Given, the nth term of the given series is a= 5n + 1.

Put n = 1, we get

a= 5(1) + 1 = 6.

We know that 

sum of n terms =  (First term + nth term)

⇒Sum of n terms =  (6 + 5n + 1)

⇒Sum of n terms =  (7+ 5n)

The third term of a GP is 3. What is the product of the first five terms?

  1. 216
  2. 226
  3. 243
  4. Cannot be determined due to insufficient data

Answer (Detailed Solution Below)

Option 3 : 243

Sequences and Series Question 11 Detailed Solution

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Concepts:

Let us consider sequence a1, a2, a3 …. an is an G.P.

  • Common ratio = r =
  • nth term of the G.P. is an = arn−1
  • Sum of n terms = s = ; where r >1
  • Sum of n terms = s = ; where r
  • Sum of infinite GP = ; |r|

Where a is 1st term and r is common ratio.

Calculation:

Given: The third term of a GP is 3

Let 'a' be the first term and 'r' be the common ratio.

∴ T3 = ar2 = 3

We know that Tn = a rn-1

So, T1 = a, T2 = ar, T3 = ar2, T4 = ar3, T5 = ar4

Now, Product of the first five terms = a × ar × ar2 × ar3 × ar4 = a5r10 = (ar2)5 = 35 = 243

If the sum of n numbers in the GP 5, 10, 20, ... is 1275 then n is ?

  1. 6
  2. 7
  3. 8
  4. 9

Answer (Detailed Solution Below)

Option 3 : 8

Sequences and Series Question 12 Detailed Solution

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Concept:

 Let us consider sequence a1, a2, a3 …. an is a G.P.

  • Common ratio = r = 
  • nth  term of the G.P. is an = arn−1
  • Sum of n terms of GP = sn = ; where r >1
  • Sum of n terms of GP = sn = ; where r
  • Sum of infinite GP =  ; |r|

Calculation:

Given series is 5, 10, 20, ...

Here, a = 5, r = 2

Sum of n numbers = sn = 1275

To Find: nAs we know that, Sum of n terms of GP = sn = ; where r >1

∴ sn = 

1275 = 5 × (2n - 1)

⇒ 255 = (2n - 1)

⇒ 2n = 256

⇒ 2n = 28

∴ n = 8

The harmonic mean and the geometric mean of two numbers are 10 and 12 respectively. What is their arithmetic mean?

  1. √120
  2. 11
  3. 14.4

Answer (Detailed Solution Below)

Option 4 : 14.4

Sequences and Series Question 13 Detailed Solution

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Given :

The harmonic mean and the geometric mean of two numbers are 10 and 12 respectively

Concept used :

(Geometric mean)2 = Harmonic mean × Arithmetic mean 

Calculations :

according to the formula given above 

(12)2 = 10 × Arithmetic mean 

⇒ Arithmetic mean = 144/10 

⇒ 14.4 

∴ Option 4 will be the correct answer.

Alternate Method 

Concept:

A.M. between a and b = 

G.M. between a and b = 

H.M. between a and b = 

Calculation:

Given, G.M. = 12, H.M. = 10

ab = 144 ........(1)

2ab = 10a + 10b

ab = 5 (a + b)........(2)

From equation (1) and (2)

144 = 5 (a + b)

But, we know that,

A.M. between a and b = 

Therefore, AM = 14.4

4th term of a G. P is 8 and 10th term is 27. Then its 6th term is?

  1. 12
  2. 14
  3. 16
  4. 18

Answer (Detailed Solution Below)

Option 1 : 12

Sequences and Series Question 14 Detailed Solution

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Concept:

Let us consider sequence a1, a2, a3 …. an is a G.P.

  • Common ratio = r = 
  • nth  term of the G.P. is an = arn−1
  • Sum of n terms = s = ; where r >1
  • Sum of n terms = s = ; where r

Calculation:

Given:

4th term of a G. P is 8 and 10th term is 27

nth  term of the G.P. is Tn = a rn-1

∴ T4 = a. r3 = 8      ----(1)

T10 = a r9 = 27      ----(2)

Equation (2) ÷ (1), we get 

∴ 

T6 = a r5

= a r3.r2

= 12

What is the sum of all the common terms between the given series S1 and S2 ?

S1 = 2, 9, 16, .........., 632

S2 = 7, 11, 15, .........., 743

  1. 6974
  2. 6750
  3. 7140
  4. 6860

Answer (Detailed Solution Below)

Option 1 : 6974

Sequences and Series Question 15 Detailed Solution

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GIVEN:

Two series given i.e. S1 and S2

FORMULA USED:

an = a + ( n - 1 ) d 

Sn = n/2 [2a + (n - 1) d ] 

Where,

a= nth term in the sequence , n= number of terms , a = first term in sequence, d = common difference , Sn = Sum 

CALCULATION:

Here, given series S1  and S2 are in A.P.

So, series will move by adding a fixed common difference ( second term - first term) in consecutive terms 

S1 = 2 , 9 , 16 , 23, 30 , 37 , 44 , 51 ,........ 632      [As  here d = 7 .So, add 7 in previous term to get next term]

S2  = 7, 11, 15, 19, 23, 27, 31, 35, 39, 43, 47, 51 , ......... 743  [ Here d = 4 ] 

Now, let us take a third series S3 which is common series                    [It will contain common numbers of both series only]

So, from S1 and S2 series, we have 1st common term = 23 , 2nd common term = 51 , d = ( 51 - 23) = 28 

So, add 28 in second term to get third term and so on

S3 = 23 , 51 , ..................   632              [ As, 632 is less than 743 so common between them should be less than 632]

Now, we have a = 23 , d = 28 

⇒ an = a + ( n - 1) d     632 

⇒ 23 + ( n - 1) × 28  632 

⇒ ( n -  1) × 28    ( 632 - 23 ) 

⇒ ( n - 1) × 28   609 

⇒ n -1  609 /28 

⇒ n - 1  21.75 

⇒ n  22 .75

 As, n should be equal to or less than 22.75 . So, take n = 22 

Now, as we know that 

Sn = n/2 [ 2a + ( n - 1) d ] 

⇒ Sn = 22/2 [ 2 × 23 + ( 22 - 1) 28]  = 11 [46 + 21 × 28 ] 

⇒ 11 [ 46 + 588 ] = 11 × 634  = 6974

Hence, Sum of all the common terms of the series are 6974 .

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