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Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

Previous Year Questions 2024

Q1:  The ratio of the 10th term to its 30th term of an A.P. is 1 : 3 and the sum of its first six terms is 42. FInd the first term and the common difference of A.P.       (CBSE 2024)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:
Let the AP be a, a + d, a + 2d,.............
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
⇒ 3a + 27d= a + 29d
⇒ 2a – 2d = 0
⇒ 2a + 2d
∴ a = d ...(i)     
Now,  S6 = 42
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
⇒ 3[2a + 5d] = 42
⇒ 2a + 5d =14
⇒ 2a + 5a = 14 [From eqn (i)]
⇒ 7a = 14
⇒ a = 14/7
∴ a = 2
So First term = 2
Common difference = 2.


Q2: If the sum of first 7 terms of an A.P. is 49 and that of first 17 terms is 289, find the sum of its first 20 terms.   (CBSE 2024)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:
S7 = 49
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
⇒ 2a + 6d = 14
⇒ a + 3d = 7 ...(i)
S17 = 289
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
⇒ 2(a + 8d) = 34
⇒ a + 8d = 17 ...(ii)  
From eqn (i) and (ii).    
–5d = –10
∴  d =2  
Put the value of d in eqn.(i),
∴ a + 3 × 2 =7
⇒ a + 6 = 7
⇒ a = 7 - 6
⇒ a = 1
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

Previous Year Questions 2023

Q4: If a, b,  form an A.P. with common difference d. then the value of a- 2b-c is equal to  (2023)
(a) 2a + 4d
(b) 0
(c) -2a- 4d 
(d) -2a - 3d    

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (c)
Sol: We have, a, b, c are in A.P.
b = a + d, and c =  a + 2d
Now, a - 2b - c = a - 2(a + d) -  (a + 2d)
= a - 2a - 2d - a - 2d
= -2a- 4d


Q5: If k + 2, 4k - 6. and 3k - 2 are three consecutive terms of an A.P. then the value of k is  (2023)
(a) 3
(b) -3
(c) 4
(d) -4  

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (a)
Sol: Since, k + 2, 4k - 6 and 3k - 2 are three consecutive terms of A.P.
a2 - a1 = a3 - a2
⇒ (4k - 6)- (k + 2) = (3k - 2) - (4k - 6)
⇒ 4k -6 - k - 2= 3k - 2 - 4k + 6
⇒ 3k - 8 = -k + 4
⇒ 4k = 12
⇒ k = 3


Q6: How many terms are there in A.P. whose first and fifth term are -14 and 2, respectively and the last term is 62.    (CBSE 2023)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: We have
First term, a1 = - 14
Fifth term, a5 = 2
Last term, an = 62
Let d be the common difference and n be the number of terms.
∵ a5 = 2
⇒ -14 +(5 - 1)d = 2
⇒  4d = 16
⇒  d =4
Now, a= 62
⇒  -14 + (n - 1)4 = 62
⇒ 4n - 4 = 76
⇒ 4n = 80
⇒ n= 20
There are 20 terms in A.P.


Q7: Which term of the A.P. : 65, 61, 57, 53, _____ is the first negative term ?   (CBSE 2023)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Given, A.P. is 65, 61, 57, 53,.....
Here, first term a = 65 and common difference, d = -4
Let the nth term is negative.
Last term, an = a + (n - 1) = 65 + (n - 1)(-4)
= 65 - 4n + 4
= 69 - 4n, which will be negative when n = 18
So, 18th term is the first negative term.


Q8: Assertion:  a, b, c are in AP if and only if 2b = a + c
Reason: The sum of first n odd natural numbers is n2   (CBSE 2023)
(a) Both Assertion (A) and Reason (R) are true and Reason (R) is the correct explanation of Assertion (A).
(b) Both Assertion (A) and Reason (R) are true and Reason (R) is not the correct explanation of Assertion (A).
(c) Assertion (A) is true but Reason (R) is false.
(d) Assertion (A) is false but Reason (R) is true.

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (b)
Sol: Since, a, b ,c are in A.P. then b - a = c -b
⇒ 2b = a + c
First n odd natural number be 1, 3, 5 ..... (2n - 1).
which form an A.P. with a = 1 and d = 2
Sum of first n odd natural number = n/2[2a + (n -1)d]
= n/2 [2 + (n - 1)2] = n2
Hence, assertion and reason are true but reason is not the correct expiation of assertion.


Q9: The sum of first 15 terms of an A.P. is 750 and its first term is 15. Find its 20th term.    (2023)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Here, a = 15 and S15 = 750
∵ Sn = n/2[2a + (n -1)d]
∴ S15 = 15/2 [2 x 15 + (15 -1)d] = 750
⇒ 15(15 + 7d) = 750
⇒ 15 + 7d = 50
⇒ 7d = 35
⇒ d = 5
Now, 20th term = a + (n - 1)d
= 15 + (20 - 1) 5
= 15 + 95
= 110


Q10: Rohan repays his total loan of Rs. 1,18,000 by paying every month starting with the first instalment of Rs. 1,000. If he increase the instalment by Rs. 100 every month. what amount will be paid by him in the 30th instalment? What amount of loan has he paid after 30th instalment?   (2023)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Total amount of loan Rohan takes = Rs. 1,18,000
First instalment paid by Rohan = Rs. 1000
Second instalment paid by Rohan = 1000 + 100 = Rs. 1100
Third instalment paid by Rohan = 1100 + 100 = Rs. 1200 and so on.
Let its 30th instalment be n.
Thus, we have 1000,1100,1200, which forms an A.P. with first term (a) = 1000
and common difference (d) = 1100 - 1000 = 100
nth term of an A.P. an= a + (n - 1)d
For 30th instalment, a30 = a + (30 - 1)d
= 1000 + (29) 100 = 1000 + 2900 = 3900
So Rs. 3900 will be paid by Rohan in the 30th instalment.
Now, we have a = 1000, last term (l)= 3900
Sum of 30 instalment, S30 = 30/2[a + 1]
⇒ S30 = 15(1000 + 3900) = Rs. 73500
Total amount he still have to pay after the 30th instalment = (Amount of loan) - (Sum of 30 instalments)
= Rs. 1,18,000 - Rs. 73,500 = Rs. 44,500
Hence, Rs. 44,500 still have to pay after the 30th instalment.


Q11: The ratio of the 11th term to the 18th term of an AP is 2:3. Find the ratio of the 5th term to the 21st term and also the ratio of the sum of the first five terms to the sum of the first 21 terms.   (2023)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let a and d be the first term and common difference of an AP.
Given that, a11 : a18 = 2 : 3
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
⇒ 3a + 30d = 2a + 34d
⇒ a = 4d ...(i)
Now, a5 = a + 4d = 4d + 4d = 8d [from Eq.(i)]
And a21 = a + 20d = 4d + 20d = 24d [from Eq. (i)]
a5 : a21 = 8d : 24d = 1 : 3
Now, sum of the first five terms, S5 = 5/2 [2a + (5−1)d]
= 5/2 [2(4d) + 4d]   [from Eq.(i)]
= 5/2 (8d + 4d) = 5/2 × 12d = 30d
And, sum of the first 21 terms, S21 = 21/2 [2a + (21−1)d]
= 21/2 [2(4d) + 20d]= 21/2 × 28 d = 294 d from Eq..(i)]
So, ratio of the sum of the first five terms to the sum of the first 21 terms is,
S5 : S21 = 30d : 294d = 5 : 49


Q12: 250 logs are stacked in the following manner: 22 logs in the bottom row, 21 in the next row, 20 in the row next to it and so on (as shown by an example). In how many rows, are the 250 logs placed and how many logs are there in the top row?
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let there be n rows to pile of 250 logs
Here, the bottom row has 22 logs and in next row, 1 log reduces
It means, we get an AP 22, 21, 20, 19, ..................... n with first term or a = 22 and d = -1
Now, we know that total logs are 250 or we can say that,
Sn =250
Since sum of n terms of an A.P. Sn = n/2 (2a + (n-1) d)
= 250 Therefore, n/2 (2 x 22 + (n-1) x (-1))
or 500 = n (44 - (n-1))
500 = n (45- n)
n2 - 45 n + 500 = 0
By solving this, we get (n-20) (n-25) = 0
Since, there are 22 logs in first row and in next row, 1 log reduces, then we can not have more than 22 terms
∴ n ≠ 25
and n = 20
Means, 20th row is the top row of the pile
Now let's find out number of logs in 20th row
We know that value of nth term of an A.P. = a + (n-1) d
N20 = [22 + (20-1) (-1)]
=(22-19) = 3
Therefore, there are 3 logs in the top row.


Q13: The next term of the A.P. : √7 , √28, √63 is: 
(a) √70 
(b) √80 
(c) √97 
(d) √112   (CBSE 2023)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (d)
To find the next term of the arithmetic progression (A.P.) √\sqrt{7}, \sqrt{28}, \sqrt{63}7, √28, √63, let's first determine the common difference.
We need the approximate values for calculation:

√7 ≈ 2.6458

√28 ≈ 5.2915

√63 ≈ 7.9373

So:
d = 28 − 7 ≈ 5.2915 - 2.6458 = 2.6457
Similarly, checking the difference between 63 and √\sqrt{28}28:
d = 63 - 28 ≈ 7.9373 − 5.2915 = 2.6458
The common difference ddd is approximately 2.6458, so the sequence is indeed an A.P.
The next term after 63 is:
Next term = 63 + d ≈ 7.9373 + 2.6458 = 10.5831
Now, approximate this result as the square root of the next perfect square:
10.5831 ≈ 112
Thus, the next term is: √\sqrt{112}112

Previous Year Questions 2022

Q14: Find a and b so that the numbers a, 7, b,  23 are in A.P.      (2022)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Since a, 7, b,  23 are in A.P.
∴ Common difference is same.
∴ 7 - a = b -7 = 23 - b
Taking second and third terms, we get
b - 7 = 23 - b
⇒ 2b = 30
⇒ b = 15
Taking first and second terms, we get
⇒ 7 - a = b - 7
⇒ 7 - a = 15 - 7
⇒ 7 - a = 8
⇒ a = -1
Hence, a = -1, b = 15.


Q15: Find the number of terms of the A.P. : 293, 235, 27,....., 53      (2022)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Given, 293, 285, 277..... 53 be an A.P.
a = 293, d = 285 - 293 = -8
We know. an = a + (n - 1 )d
⇒ 53 = 293 =  (n - 1)(-8)
⇒ 53 - 293 = (n - 1) (-8)
⇒ -240 =  (n - 1) (-8)
⇒ 30 = n - 1
⇒ n = 31


Q16: Determine the A.P. whose third term is 5 and seventh term is 9.     (2022)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let the first term and common difference of an A.P. be a and d, respectively.
Given a3= 5 and a7 = 9
a + (3 - 1 ) d = 5 and a + (7 - 1)d  =  9
a + 2d = 5 --------------(i)
and a + 6d = 9--------------(ii)
On subtracting (i) from (ii), we get
⇒ 4d  = 4
⇒ d = 1
From (i), a + 2(1) = 5 ⇒ a + 2 = 5 ⇒ a = 3
So. required A.P. is a, a + d, a + 2d, a + 3d......
i.e. 3, 3 +1, 3 + 2(1), 3 + 3(1), .....,  i.e.. 3,  4,  5, 6, .....

Previous Year Questions 2020

Q17: If -5/7, a, 2 are consecutive terms in an Arithmetic  Progression, then the value of a' is    (2020)
(a) 9/7
(b) 9/14
(c) 19/7
(d) 19/14     

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (b)
Sol: Given, -5/7, a, 2 are in A.P. therefore common difference is same.
∴ a2 - a1 = a3 - a2

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions


Q18: Which of the following is not an A.P?     (2020)
(a) -1.2, 0.8.2.8, ....
(b) 3, 3+√2, 3+2√2,3 + 3√2,...
(c) 4/3, 7/3, 9/3, 12/3, ...

(d) -1/5, -2/5, -3/5,..

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (c)
Sol: In option (c), We have
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
As a2 - a1 ≠  a3- a2 the given list of numbers does not form an A.P.


Q19: The value of x for which 2x, (x + 10) and (3x + 2) are the three consecutive terms of an A.P, is  (2020)
(a) 6
(b) -6
(c) 18
(d) -18

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (a)
Sol: Given, 2x, (x + 10) and (3x + 2) are in A.P.
(x + 10) - 2x = (3x + 2) -(x + 10)
⇒ -x + 10= 2x - 8
⇒ - 3x = -18
⇒ x = 6


Q20: Show that (a - b)2, (a2 + b2) and (a + b)2 are in A.P.    (2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let a1 = (a - b)2, a2 = (a2 + b2) and a3= (a + b)2
Now. a2 - a1 = (a2 + b2) - (a - b)2
= a2 + b2 - (a2 + b2 - 2ab)
= a2 + b2- a2- b2 + 2ab = 2ab
Again a- a2 = (a + b)2 - (a2 + b2)
= a2 + b2 + 2ab - a2 - b2 = 2ab
∴ a2 - a1 = a3 - a2
So, (a - b)2, (a2 + b2) and (a + b)2 are in A.P.


Q21: The sum of four consecutive numbers in A.P. is 32 and the ratio of the product of the first and last terms to the product of two middle terms is 7 : 15. Find the numbers.       (2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let the four consecutive numbers be (a - 3d), (a - d), (a + d), (a + 3d).

Sum of four numbers = 32 (Given)
⇒ (a - 3d) + (a - d) + (a + d) + (a + 3d) = 32
⇒ 4a = 32 ⇒  a = 8

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

If d = 2. then the numbers are (8 - 6), (8 - 2), (8 + 2) and (8 + 6) i.e., 2,6, 10, 14 .
If d = -2. then the numbers are (8 + 6), (8 + 2), (8 - 2). (8 - 6) i.e.,14 ,10 ,6 ,2 .
Hence, the numbers are 2, 6, 10, 14 or 14, 10, 6, 2.


Q22: Find the sum of the first 100 natural numbers.       (CBSE 2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: First 100 natural numbers are 1 , 2 , 3 ...... 100 which form an A.P. with a = 1, d = 1.
Sum of n terms =Sn = n/2 [2a + (n - 1)d] 

 = 100/2 [2 x 1 + (100 - 1) x 1] = 50 [2 + 99] = 50 x 101 = 5050


Q23: Find the sum of first 16 terms of an Arithmetic Progression whose 4th and 9th terms are - 15 and - 30 respectively.   (2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Given, a4 = -15 and a9 = -30
a + 3d = - 15  (i)
a + 8d = -30   (ii)
On subtracting (ii)from (i), we have
-5d = 15
⇒ d = - 3
Put d = - 3 in (i), we have
a + 3(-3)= - 15 
⇒ a - 9 = - 15
⇒ a = - 6
Now, Sn = n/2 [2a + (n - 1)d]
⇒ S16 = 16/2 [2(-6) + (16 - 1) (-3)]
= 8 [2(-6) + (15) (-3)] = 8 [-12 - 45] = -456


Q24:  in an A.P. given that the first term (a) = 54. the common difference (d) = -3 and the nth term (an) = 0. find n and the sum of first n terms (Sn) of the A.P.       (2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:  Given, d = - 3, a = 54 and an= 0
Since an = a + (n -1)d
∴ 0 = 54 + (n - 1)(-3)
⇒ 0 = 54 - 3n + 3
⇒  3n = 57
⇒ n = 19
Now,
Sn = n/2 [2a+(n-1)d]
= 19/2 [2 × 54 +(19 - 1)(-3)]
= 19/2 [108 - 54] = 19/2 × 54 = 513


Q25: Find the Sum (−5) + (−8)+ (−11) + ... + (−230).      (2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: (−5) + (−8)+ (−11) + ... + (−230) .
Common difference of the A.P. (d) = a- a
= -8-(-5)
= -8+5
= -3
So here,
First term (a) = −5
Last term (l) = −230
Common difference (d) = −3
So, here the first step is to find the total number of terms. Let us take the number of terms as n.
Now, as we know,
an = a + (n-1) d
So, for the last term,
- 230 = -5 + ( n-1) (-3)
- 230 = -5-3n + 3
-23 +2 = -3n
- 228/-3 = n
n = 76
Now, using the formula for the sum of n terms, we get
Sn = 76/2 [2(-5) + (76-1)(-3)]
= 38 [-10 + (75)(-3)]
=38 (-10-225)
= 38(-235)
= -8930
Therefore, the sum of the A.P is  Sn = -8930 


Q26: Show that the sum of all terms of an A.P. whose first term is a, the second term is b and the last term is c is equal to Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions. (CBSE 2020)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Given: first term a1 = a, second term, a2 = b and last term, l = c.  
So, common difference, d = a2 – a1 = b – a  
Let this A.P. contains n terms.          
Then,  l = a + (n – 1)d 
⇒ c = a + (n – 1) (b – a) 
⇒ c – a = (n – 1)(b – a)
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

Now, sum of n terms of A.P. is given by,

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

= Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Hence, proved.

Previous Year Questions 2019

Q27: Write the common difference of A.P.  (2019)
√3, √12, √27, √48, ......

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Give A.P. is
√3, √12, √27, √48, ......
or √3, 2√3, 3√3,4√3, .......
∴ d = common difference = 2√3 - √3 = √3


Q28: Which term of the A.P. 10, 7, 4, ...is -41 ?  (2019)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:  Let nth term of A.P. 10, 7, 4, ...is -41
∴ an = a + (n - 1)d
⇒ - 41 = 10+(n-1)(-3)     [∵ d = 7 - 10 = -3]
⇒ - 41 = 10 - 3n + 3
⇒ -41 = 13 - 3n
⇒ 3n = 54=n= 18
∴ 18th term of given A.P. is - 41 


Q29: If in an A.P. a = 15, d = - 3 and an = 0, then find the value of n.  (2019)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Given, a = 15,  d = - 3 and an = 0
∴ an = a + (n - 1)d
⇒ 15 + (n - 1 )(- 3)= 0
⇒ 15  - 3n +3 = 0 
⇒ 18 - 3n = 0 
⇒ - 3n = -18
⇒ n = 6


Q30: How many two digit numbers are divisible by 3?  (2019)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Two-digit numbers which are divisible by 3 are 12, 15, 13..... 99. which forms an A.P. with first term (a) = 12, common difference (d) = 15 - 12 = 3 and last term (l) or nth term = 99 
a + (n - 1)d = 99
⇒ 12 + (n - 1)3 = 99 
⇒ 3n = 99 - 9
⇒ n = 90/3
⇒ n = 30


Q31: If the 9th term of an AR is zero, then show that its 29th term is double of its 19th term.      (2019, 2 Marks)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:  Given, a9 = 0 . we have to show that a29 = 2a19
a + 8d = 0
⇒ a = - 8 d
Now, a19 = a + 18d = -8d + 18d = 10d
a29 = a + 28d = -8d + 28d = 20d = 2(10d ) = 2a19
Hence, a29 = 2a19


Q32: Which term of the A.P. 3, 15, 27, 39, ... will be 120 more than its 21st term?    (CBSE 2019)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:  We have, first term, a = 3, common difference,  d = 15 - 3 =12
nth term of an A.P. is given by an = a + (n - 1)d 
∴ a21 =  3 + (20) x 12 
= 3 + 240 
= 243 
Let the rth term of the AP. be 120 more than the 21st term.
⇒ a + (r - 1) d = 243 + 120
⇒ 3 + (r - 1) 12 = 363
⇒ (r - 1) 12 = 360 ⇒ r - 1= 30 ⇒ r = 31


Q33: If the 17th term of an A.P. exceeds its 10th term by 7, find the common difference.   (2019)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans:  According to question, a17 - a10 = 7 
i.e. a + 16d- (a + 9d) = 7
where a = first term d = common difference
⇒ 7d = 7
∴ d = 1


Q34: Ramkali would require ₹ 5000 for getting her daughter admitted in a school after a year. She saved ₹ 150 in the first month and increased her monthly saving by ₹ 50 every month. Find, if she will be able to arrange the required money after 12 months. Which value is reflected in her efforts? (CBSE 2019, 15)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: The saving in first month is₹ 150. 
The saving in second month is 
₹(150 + 50) = ₹ 200 
Similarly, saving goes on increasing every month by ₹ 50.   
Savings = ₹ 150, ₹ 200, ₹ 250, ₹300,..... 
Savings forms an A.P. in which first term (a) = 150 and common difference, (d) = 50 
Then, total savings for 12 months 
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

Then, Ramkali would be able to save ₹ 5,100 in 12 months and she needs ₹5,000 to send her daughter to school. 
Hence, Ramkali would be able to send her daughter to school. 
Values: Putting efforts to send her daughter to school shows her awareness regarding girls education and educating a child.

Previous Year Questions 2017

Q35: A sum of ₹ 4,250 is to be used to give 10 cash prizes to students of a school for their overall academic performance. If each prize is ₹ 50 less than its preceding prize, find the value of each of the prizes. (CBSE 2017)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let the value of first most expensive prize be ₹ a. 
Then, according to the given condition, prizes are a, a – 50, a – 100, a – 150 ....... 
The given series forms an A.P., with a common difference of (– 50). 
Here, first term = a 
Common difference    d = – 50 
Number of terms, n    = 10 and, 
sum of 10 terms, S10 = ₹ 4,250 
By formula, Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Hence, the value of the prizes are: ₹ 650, ₹ 600, ₹ 550, ₹ 500, ₹ 450, ₹ 400, ₹ 350, ₹ 300, ₹ 250, ₹ 200.


Q36: A child puts one five-rupee coin of her savings in the piggy bank on the first day. She increases her saving by one five-rupee coin daily. If the piggy bank can hold 190 coins of five rupees in all, find the number of  days she can continue to put the five-rupee coins into it and find the total money she saved. Write your views on the habit of saving. (CBSE 2017)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Since, child puts ₹ 5 on 1st day, ₹ 10 (2 × 5) on 
2nd day, ₹ 15(3 × 5) on 3rd day and so on.  
Total savings = 190 coins = 190 × 5 = ₹ 950          
So, the series of her daily savings is, ₹ 5, ₹ 10, ₹ 15, .....         
Clearly, this series is an A.P. 
So, first term, a = 5               
Common difference, d = 5               
Sum of total savings, Sn = 950 
Let, n be the last day when piggy bank becomes full.
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
n(n + 20) – 19(n + 20) = 0 
(n – 19) (n + 20) = 0 
n = 19 or – 20          
But ‘n‘ cannot be negative, hence n = 19.          
Hence, she continuous the savings for 19 days and saves ₹ 950.          
Views on habit of saving: 
(1) Child is developing a very good habit of savings.
(2) Consistent saving can create a wonder.


Q37: Write the nth term of the A.P. Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions(CBSE 2017)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Given, A.P. is Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Here, first term, a = 1 / m
Common difference,
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
∴ nth term, an= a + (n – 1)d

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Hence, the nth term of given A.P. is Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions.

Previous Year Questions 2016

Q38: Yasmeen saves ₹ 32 during the first month, ₹ 36 in the second month and ₹ 40 in the third month. If she continues to save in this manner, in how many months will she save ₹ 2000? (CBSE 2016, 15, 12)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: It is given that, 
Money saved in 1st month =₹ 32
Money saved in 2nd month = ₹ 36 
Money saved in 3rd month =₹ 40 
Let Yasmeen saves ₹ 2000 in n months. 
Clearly, monthly savings of Yasmeen are in A.P. with a = ₹ 32, d = ₹ 4 and Sn = ₹ 2000. 
We know that sum of first n terms of an A.P. is
Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
Splitting the middle term, we get n2 + 40n – 25n – 1000 = 0 
n(n + 40) – 25(n + 40) = 0 
(n + 40)(n – 25)  =  0 
⇒ n =  –40, n = 25 
But n ≠ –40, as number of months cannot be negative. 
∴ n = 25 Hence, 
Yasmeen will save ₹ 2000 in 25 months

Q39: A thief runs with a uniform speed of 100 m/minute. After one minute, a policeman runs after the thief to catch him. He goes with a speed of 100 m/minute in the first minute and increases his speed by 10 m/minute every succeeding minute. After how many minutes the policeman will catch the thief? (CBSE 2016)

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions  View Answer

Ans: Let the total time taken to catch the thief be ‘n’ minutes. 
Speed of thief    = 100 m/min., 
Total distance covered by the thief = 100n 
Now, the speed of the policeman in the first minute is 100 m/min, in the 2nd minute is 110 m/min, in the 3rd minute is 120 m/min and so on.
Then, the speed forms an A.P. with a constant increasing speed of 10 m/min, thus, the series is, 
100, 110, 120, 130, ... 
As the policeman starts after a minute, so time taken by the policeman to catch the thief is (n – 1) minutes. 
∴ Total distance covered by the policeman 
= 100 + 110 + 120 + ... (n – 1) terms

Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions
⇒ 10n2 – 30n – 180 = 0 
⇒ n2 – 3n – 18 = 0 
⇒ (n – 6) (n + 3)    = 0 
⇒ n = 6     [n = – 3, is not possible] 
Hence, the policeman takes 6 minutes to catch the thief.

The document Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions is a part of the Class 10 Course Mathematics (Maths) Class 10.
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FAQs on Class 10 Maths Chapter 5 Previous Year Questions - Arithmetic Progressions

1. What is the formula for the nth term of an arithmetic progression (AP)?
Ans. The formula for the nth term of an arithmetic progression is given by \( a_n = a + (n-1)d \), where \( a \) is the first term, \( d \) is the common difference, and \( n \) is the term number.
2. How do you find the sum of the first n terms of an arithmetic progression?
Ans. The sum of the first n terms of an arithmetic progression can be calculated using the formula \( S_n = \frac{n}{2} (2a + (n-1)d) \) or \( S_n = \frac{n}{2} (a + a_n) \), where \( S_n \) is the sum, \( a \) is the first term, \( d \) is the common difference, and \( a_n \) is the nth term.
3. Can you provide an example of an arithmetic progression?
Ans. An example of an arithmetic progression is the sequence 2, 5, 8, 11, 14, ... Here, the first term \( a = 2 \) and the common difference \( d = 3 \).
4. What are the properties of an arithmetic progression?
Ans. The key properties of an arithmetic progression include: 1. The difference between consecutive terms is constant (common difference). 2. The nth term can be expressed using the first term and the common difference. 3. The sum of the first n terms can be calculated easily using the respective formulas.
5. How can you determine if a sequence is an arithmetic progression?
Ans. To determine if a sequence is an arithmetic progression, check if the difference between consecutive terms is the same. If the difference is constant for all pairs of consecutive terms, then the sequence is an arithmetic progression.
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