Important Questions for Class 10 Maths Chapter 5 Arithmetic Progressions

 

Important Questions for Class 10 Maths Chapter 5 Arithmetic Progressions

Arithmetic Progressions Class 10 Important Questions Very Short Answer (1 Mark)

Question 1.
Find the common difference of the AP 1p,1−pp,1−2pp,…. (2013D)
Solution:
The common difference,

Question 2.
Find the common difference of the A.P. 12b,1−6b2b,1−12b2b,…. (2013D)
Solution:
The common difference, d = a2 – a1 = 1−6b2b−12b
= 1−6b−12b=−6b2b = -3

Question 3.
Find the common difference of the A.P. 13q,1−6q3q,1−12q3q,…. (2013D)
Solution:
Common difference, d = a2 – a1 = 1−6q3q−13q
= 1−6q−13q=−6q3q = -2

Question 4.
Calculate the common difference of the A.P. 1b,3−b3b,3−2b3b,…. (2013D)
Solution:
Common difference, d = a2 – a1= 3−b3b−1b
= 3−b−33b=−b3b=−13

Question 5.
Calculate the common difference of the A.P. 13,1−3b3,1−6b3,… (2013OD)
Solution:
Common difference, d = a2 – a1 = 1−3b3−13
= 1−3b−13=−3b3 = -b

Question 6.
What is the common difference of an A.P. in which a21 – a7 = 84? (2017OD )
Solution:
a21 – a7 = 84 …[Given
∴ (a + 20d) – (a + 6d) = 84 …[an = a + (n – 1)d
20d – 6d = 84
14d = 84 ⇒ d 8414 = 6

Question 7.
Find the 9th term from the end (towards the first term) of the A.P.    5,9,13, …, 185. (2016D)
Solution:
Here First term, a = 5
Common difference, d = 9 – 5 = 4
Last term, 1 = 185
nth term from the end = l – (n – 1)d
9th term from the end = 185 – (9 – 1)4
= 185 – 8 × 4 = 185 – 32 = 153

Arithmetic Progressions Class 10 Important Questions Short Answer-I (2 Marks)

Question 8.
The angles of a triangle are in A.P., the least being half the greatest. Find the angles. (2011D)
Solution:
Let the angles be a – d, a, a + d; a > 0, d > 0
∵ Sum of angles = 180°
∴ a – d + a + a + d = 180°
⇒ 3a = 180° ∴ a = 60° …(i)
By the given condition
a – d = a+d2
⇒ 2 = 2a – 2d = a + d
⇒ 2a – a = d + 2d ⇒ a = 3d
⇒ d = a3=60∘3 = 20° … [From (i)
∴ Angles are: 60° – 20°, 60°, 60° + 20°
i.e., 40°, 60°, 80°

Question 9.
Find whether -150 is a term of the A.P. 17, 12, 7, 2, … ? (2011D)
Solution:
Given: 1st term, a = 17
Common difference, d = 12 – 17 = -5
nth term, an = – 150 (Let)
∴ a + (n – 1) d = – 150
17 + (n – 1)(-5) = – 150
(n – 1) (-5) = – 150 – 17 = – 167
(n − 1) = −167−5
n = 1675 + 1 = 167+55=1725
n = 1725 …[Being not a natural number
∴ -150 is not a term of given A.P.

Question 10.
Which term of the progression 4, 9, 14, 19, … is 109? (2011D)
Solution:
Here, d = 9 -4 = 14 -9 = 19 – 14 = 5
∴ Difference between consecutive terms is constant.
Hence it is an A.P.
Given: First term, a = 4, d = 5, an = 109 (Let)
∴ an = a + (n – 1) d … [General term of A.P.
∴ 109 = 4 + (n – 1) 5
⇒ 109 – 4 = (n – 1) 5
⇒ 105 = 5(n − 1) ⇒ n – 1 = 1055 = 21
⇒ n = 21 + 1 = 22 ∴ 109 is the 22nd term

Question 11.
Which term of the progression 20, 192, 183, 17 … is the first negative term? (2017OD)
Solution:
Given: A.P.: 20, 774,374,714
Here a = 20, d = 77−804=−34
For first negative term, an < 0
⇒ a + (n − 1)d < 0 ⇒ 20 + (n − 1)(-34) < 0
⇒ –34(n − 1) < -20 ⇒ 3(1 – 1) > 80
⇒ 3n – 3 > 80 ⇒ 3n > 83
n > 834 ⇒ n > 27.5
∴ Its negative term is 28th term.

Question 12.
The 4th term of an A.P. is zero. Prove that the 25th term of the A.P. is three times its 11thterm. (2016OD)
Solution:
Let 1st term = a, Common difference = d
a4 = 0 a + 3d = 0 ⇒ a = -3d … (i)
To prove: a25 = 3 × a11
a + 24d = 3(a + 10d) …[From (i)
⇒ -3d + 24d = 3(-3d + 10d)
⇒ 21d = 21d
From above, a25 = 3(a11) (Hence proved)

Question 13.
The 7th term of an A.P. is 20 and its 13th term is 32. Find the A.P. (2012OD)
Solution:
Let a be the 1th term and d be the common difference.

Question 14.
Find 10th term from end of the A.P. 4,9, 14, …, 254. (2011OD)
Solution:
Common difference d = 9 – 4
= 14 – 9 = 5
Given: Last term, l = 254, n = 10
nth term from the end = l – (n – 1) d
∴ 10th term from the end = 254 – (10 – 1) × 5
= 254 – 45 = 209

Question 15.
Find how many two-digit numbers are divisible by 6? (2011OD)
Solution:
12, 18, 24, …,96
Here, a = 12, d = 18 – 12 = 6, an = 96
a + (n – 1)d = an
∴ 12 + (n – 1)6 = 96
⇒ (n − 1)6 = 96 – 12 = 84
⇒ n – 1 = 846 = 14
⇒ n = 14 + 1 = 15
∴ There are 15 two-digit numbers divisible by 6.

Question 16.
How many natural numbers are there between 200 and 500, which are divisible by 7? (2011OD)
Solution:
203, 210, 217, …, 497
Here a = 203, d = 210 – 203 = 7, an = 497
∴ a + (n – 1) d = an
203 + (n – 1) 7 = 497
(n – 1) 7 = 497 – 203 = 294
n – 1 = 2947 = 42 ∴ n = 42 + 1 = 43
∴ There are 43 natural nos. between 200 and 500 which are divisible by 7.

Question 17.
How many two-digit numbers are divisible by 3? (2012OD)
Solution:
Two-digit numbers divisible by 3 are:
12, 15, 18, …, 99
Here, a = 12, d = 15 – 12 = 3, an = 99
∴ a + (n – 1)d = an
12 + (n – 1) (3) = 99
(n – 1) (3) = 99 – 12 = 87
n – 1 = 873 = 29
∴ n = 29 + 1 = 30
∴ There are 30 such numbers.

Question 18.
How many three-digit natural numbers are divisible by 7? (2013D)
Solution:
“3 digits nos.” are 100, 101, 102, …, 999
3 digits nos. “divisible by 7” are:
105, 112, 119, 126, …, 994
a = 105, d = 7, an = 994, n = ?
As a + (n – 1)d = 994 = an
∴ 105 + (n – 1)7 = 994
(n − 1)7 = 994 – 105
(n – 1) = 8897 = 127
∴ n = 127 + 1 = 128

Question 19.
Find the number of all three-digit natural numbers which are divisible by 9. (2013OD)
Solution:
To find: Number of terms of A.P., i.e., n.
A.P. = 108 + 117 + 126 + … + 999
1st term, a = 108
Common difference, d = 117 – 108 = 9
an = 999
a + (n – 1)d = an
∴ 108 + (n – 1) 9 = 999
⇒ (n − 1) 9 = 999 – 108 = 891
⇒ (n − 1) = 8919 = 99
∴ n = 99 + 1 = 100

Question 20.
Find the number of natural numbers between 101 and 999 which are divisible by both 2 and 5. (2014OD)
Solution:
Numbers divisible by both 2 and 5 are 110, 120, 130, …, 990.
Here a = 110, d = 120 – 110 = 10, an = 990
As a + (n – 1)d = an = 990
110 + (n – 1)(10) = 990
(n – 1)(10) = 990 – 110 = 880
(n − 1) = 2947 = 88
∴ n = 88 + 1 = 89

Question 21.
Find the middle term of the A.P. 6, 13, 20, …, 216. (2015D)
Solution:
The given A.P. is 6, 13, 20, …, 216
Let n be the number of terms, d = 7, a = 6, an = 216
an = a + (n – 1)d
∴ 216 = 6 + (n – 1).7
216 – 6 = (n – 1)7
2107 = n – 1 ⇒ 30 + 1 = n
⇒ n = 31
Middle term = (n+12)th term
= (31+12)=(322) = 16th term of the A.P.
∴ a16 = a + 15d = 6 + 15 × 7 = 111

Question 22.
Find the middle term of the A.P. 213, 205, 197, … 37. (2015D)
Solution:
A.P. : 213, 205, 197, …………. 37.
Let a and d be the first term and common difference of A.P. respectively,
Here a = 213, d = -8, an = 37, where n is the number of terms.
an = a + (n – 1)d
∴ 37 = 213 + (n – 1) (-8)
−176−8 = n – 1 ⇒ n = 23
∴ Middle term = (n+12) th =(23+12)
= 12th term
∴ a12 = a + 11(d) = 213 + 11(-8) = 125

Question 23.
How many terms of the A.P. 27, 24, 21, … should be taken so that their sum is zero? (2016D)
Solution:
Here, 1st term, a = 27
Common difference, d = 24 – 27 = -3
Given: Sn = 0
⇒ n2[2a + (n − 1)d] = 0
⇒ n2[2(27) + (n − 1)(-3)] = 0
⇒ n(54 – 3n + 3) = 0
⇒ n(57 – 3n) = 0
⇒ n = 0 or (57 – 3n) = 0
⇒ -3n = -57
⇒ n = 19
Since n, i.e., number of terms cannot be zero.
∴ Number of terms = 19

Question 24.
How many terms of the A.P. 65, 60, 55, … be taken so that their sum is zero? (2016D)
Solution:
1st term, a = 65
Common difference, d = 60 – 65 = -5
Sn = 0 …[Given
⇒ n2[2a + (n − 1)d] = 0
⇒ n2[2(65) + (n − 1)(-5)] = 0
⇒ n(130 – 5n + 5) = 0
⇒ n(135 – 5n) = 0
⇒ n = 0 or 135 – 5n = 0
-5n = -135
⇒ n = 27
Since n, i.e., number of terms can not be zero.
∴ Number of terms = 27

Question 25.
Find the sum of the first 25 terms of an A.P. whose nth term is given by tn = 2 – 3n. (2012D)
Solution:
Given: tn = 2 – 3n
When n = 1, t1 = 2 – 3(1) = -1 ..(i)
When n = 25, t25 = 2 – 3(25) = -73 …(ii)
As Sn = n2[t1 + tn], n = 25
∴ S25 = 252[-1 + (-73)] .. [From (1) and (ii)
= 25×(−74)2 = 25 × (-37) = -925

Question 26.
The first and the last terms of an AP are 5 and 45 respectively. If the sum of all its terms is 400, find its common difference. (2014D)
Solution:
Here, an = 45, Sn = 400, a = 5, n = ?, d = ?

Question 27.
The first and the last terms of an AP are 8 and 65 respectively. If the sum of all its terms is 730, find its common difference. (2014D)
Solution:
Here a, = a = 8; an = 65
Given: Sn = 730
⇒ n2(8 + 65) = 730 …..[Sn = n2(a1 + an)
n2(73) = 730
n = 730 × 273 = 20
Now, an = a + (n − 1)d = 65
8 +(20 – 1)d = 65 ⇒ 19d = 65 – 8 = 57
∴ d = 3

Question 28.
In an AP, if S5 + S7 = 167 and S10 = 235, then find the AP, where s, denotes the sum of its first n terms. (2015OD)
Solution:
Given: S5 + S7 = 167
⇒ 52[2a + (5 – 1)d] + 72 [2a + (7 – 1)d] = 167 … [S<sub<n = n2 (2a + (n – 1)d)
⇒ 52[2a + 4d] + 72[2a + 6d] = 167
⇒ 5(a + 2d) + 7(a + 3d) = 167
⇒ 5a + 10d + 7a + 210 = 167
⇒ 12a + 31d = 167
Now, S10 = 102 (2a + (10 – 1)d) = 235
⇒ 5[2a + 9d] = 235
⇒ 10a + 45d = 235
Solving (i) and (ii), we get a = 1 and d = 5
a1 = 1
a2 = a + d ⇒ 1 + 5 = 6
a3 = a + 2d ⇒ 1 + 10 = 11
Hence A.P. is 1, 6, 11…

Question 29.
Find the sum of all three digit natural numbers, which are multiples of 11. (2012D)
Solution:
To find: 110 + 121 + 132 + … + 990
Here a = 110, d = 121- 110 = 11, an = 990
∴ a + (n – 1)d = 990
110 + (n – 1).11 = 990
(n – 1). 11 = 990 – 110 = 880
(n – 1) = 880 = 80
n = 80 + 1 = 81
As Sn = n2 (a1 + an)
∴ S81 = 812 (110 + 990)
= 812 (1100) = 81 × 550 = 44,550

Arithmetic Progressions Class 10 Important Questions Short Answer – II (3 Marks)

Question 30.
Which term of the A.P. 3, 14, 25, 36, … will be 99 more than its 25th term? (2011OD)
Solution:
Let the required term be nth term, i.e., an
Here, d = 14 – 3 = 11, a = 3
According to the Question, an = 99 + a25
∴ a + (n – 1) d = 99 + a + 24d
⇒ (n – 1) (11) = 99 + 24 (11)
(n – 1) (11) = 11 (9 + 24)
n – 1 = 33
n = 33 + 1 = 34
∴ 34th term is 99 more than its 25th term.

Question 31.
Determine the A.P. whose fourth term is 18 and the difference of the ninth term from the fifteenth term is 30. (2011D)
Solution:

Question 32.
The 19th term of an AP is equal to three times its 6th term. If its 9th term is 19, find the A.P. (2013OD)
Solution:
Given: a19 = 3(a6)
⇒ a + 18d = 3(a + 5d)
a + 18d = 3a + 15d
18d – 15d = 3a – a

Question 33.
The 9th term of an A.P. is equal to 6 times its second term. If its 5th term is 22, find the A.P. (2013OD)
Solution:
9th term = 6 (2nd term)
∴ a +8d = 6 (a + d) …[As an = a + (n – 1)d
a + 8d = 6a + 6d
8d – 6d = 6a – a
2d = 5a
⇒ d = 5a2 …(i)
Now, a5 = 22
a + 4d = 22

Question 34.
The sum of the 5th and the 9th terms of an AP is 30. If its 25th term is three times its 8th term, find the AP. (2014OD)
Solution:
a5 + a9 = 30 … [Given
a + 4d + a + 8d = 30 …[∵ an = a + (n – 1)d
2a + 12d = 30 ⇒ a + 6d = 15 …[Dividing by 2
a = 15 – 6d …(i)
Now, a52 = 3(a8)
a + 24d = 3(a + 7d)
15 – 6d + 240 = 3(15 – 6d + 7d) …[From (i)
15 + 18d = 3(15 + d)
15 + 18d = 45 + 3d
18d – 3d = 45 – 15
15d = 30 ∴ d = 3015 = 2
From (i), a = 15 – 6(2) = 15 – 12 = 3

Question 35.
If the seventh term of an AP is 19 and its ninth term is 17, find its 63rd term. (2014D)
Solution:

Question 36.
Find the value of the middle term of the following A.P.: -6, -2, 2, …, 58. (2011D)
Solution:
Here a = -6, d = -2 -(-6) = 4, an = 58
As we know, a + (n – 1) d = 58
∴ -6 + (n – 1) 4 = 58
⇒ (n – 1) 4 = 58 + 6 = 64
⇒ (n – 1) = 644 = 16
⇒ n = 16 + 1 = 17 (odd)
Middle term = (n+12)th term
(17+12)th term = 9th term
∴ a9 = a + 8d = -6 + 8 (4) = -6 + 32 = 26
∴ Middle term = 26

Question 37.
Find the number of terms of the AP 18, 151/2, 13,…, -491/2 and find the sum of all its terms.
Solution:
Here 1st term, a = 18

Question 38.
The 14th term of an AP is twice its gth term. If its 6th term is -8, then find the sum of its first 20 terms. (2015OD)
Solution:
Let a = First term, d = Common difference
a14 = 2.a8 … [Given
⇒ a + 13d = 2 (a + 7d) ..[∵ a, = a + (n – 1)d
⇒ a + 13d = 2a + 14d
⇒ 1a – 2a = 14d – 13d
⇒ -1a = d ⇒ a = -d … (i)
a6 = -8 …[Given
⇒ -8 = a + 5d
⇒ -d + 5d = -8 …[From (i)
⇒ 4d = -8 ⇒ d = -2
Value of d put in equation (i), we get
a = -d ⇒ a=-(-2)
Now, a = 2, d = -2
Now, Sum of first 20 terms,
S20 = 202[2 × 2 + (20 – 1)(-2)] …[Sn = n2 (2a + (n – 1)d)
S20 = 10[4 + 19(-2)]
S20 = 10[4 – 38] = -340

Question 39.
The 13th term of an AP is four times its 3rd term. If its fifth term is 16, then find the sum of its first ten terms. (2015OD)
Solution:
a13 = 4a3 … [Given
⇒ a + 12d = 4(a + 2d) …[∵ an = a + (n – 1)d
⇒ a + 12d – 4a – 8d = 0
⇒ 4d = 3a ⇒ d = 3a4 …(i)
a5 = 16 … [Given
⇒ a + 4d = 16
⇒ a +4(3a4) = 16 … [From (i)
⇒ a + 3a = 16
⇒ 4a = 16 ⇒ a = 164 = 4 ..(ii)
Putting a = 4 in (i), we get a = 3
⇒ d = 3×44 = 3 … [From (ii)
∴ Sn = n2 [2a + (n – 1)d]
S10 = 102 [2(4) + (10 – 1)(3)] …[n = 10 (Given)
S10 = 5 (8 + 27) ⇒ 5(35) = 175

Question 40.
If the sum of first 7 terms of an A.P is 49 and that of its first 17 terms is 289, find the sum of first n terms of the A.P. (2016D)
Solution:
Let 1st term = a, Common difference = d
Given: S7 = 49, S17 = 289

Question 41.
The first term of an A.P. is 5, the last term is 45 and the sum of all its terms is 400. Find the number of terms and the common difference of the A.P. (2017OD)
Solution:
First term, a = 5, Last term, an = 45
Let the number of terms = n
Sn = 400
n2 (a + an) = 400
n2(5 + 45) = 400
n2 (50) = 400
n = 40025 = 16 = Number of terms
Now, an = 45
a + (n – 1)d = an
5+ (16 – 1)d = 45
15d = 45 – 5 ∴ d = 4015=83

Question 42.
The nth term of an A.P. is given by (-4n + 15). Find the sum of first 20 terms of this A.P. (2013D)
Solution:
We have, an = -4n + 15
Put n = 1, a1 = -4(1) + 15 = 11
Put n=2, a2 = -4(2) + 15 = 7
∴ d = a2 – a1 = 7 – 11 = -4
As Sn = n2 (2a + (n – 1)d]
∴ S20 = 202 [2(11) + (20 – 1)(-4))… [n = 20 (Given)
= 10 (22 – 76)
= 10 (-54) = -540

Question 43.
The sum of first n terms of an AP is 3n2 + 4n. Find the 25th term of this AP. (2013D)
Solution:
We have, Sn = 3n2 + 4n
Put n = 25,
S25 = 3(25)2 + 4(25)
= 3(625) + 100
= 1875 + 100 = 1975
Put n = 24,
S24 = 3(24)2 + 4(24)
= 3(576) + 96
= 1728 + 96 = 1824
∴ 25th term = S25 – S24
= 1975 – 1824 = 151

Question 44.
The sum of the first seven terms of an AP is 182. If its 4th and the 17th terms are in the ratio 1 : 5, find the AP. (2014OD)
Solution:
S7 = 182 …[Given

∴ a = 2, d = 8
∴AP is 2, 10, 18, 26, 34, …

Question 45.
If Sn, denotes the sum of first n terms of an A.P., prove that S12 = 3(S8 – S4). (2015D)
Solution:
Let a be the first term and d be the common difference of A.P.
Sn = n2 (2a + (n − 1)d)
∴ S12 = 122 (2a + (12 – 1)d)
S12 = 6 [2a + 11d] = 124 + 66d …(i)
∴ S8 = 8n2 (2a + (8 – 1)d)
S8 = 4[2a + 7d] = 8a + 28d … (ii)
∴ S4 = 42 (2a + (4 – 1)d)
S4 = 2[2a + 3d) = 4a + 6d …(iii)
Now, S12 = 3(S8 – S4)
12a + 660 = 3(8a + 28d – 4a – 6d) … [From (i), (ii) & (iii)
12a + 660 = 3(4a + 22d)
12a + 660 = 12a + 66d …Hence proved

Question 46.
If the sum of the first n terms of an A.P. is 12 (3n2 + 7n), then find its nth term. Hence write its 20th (2015D)
Solution:
Sn = 12 (3n2 + 7n) …[Given
Put n = 1
S1 = 12[3(1)2 + 7(1)] = 12 [3 + 7) = 12 (10) = 5
Put n = 2
S2 = 12 [3(2)2 + 7(2)] = 12[3(4) + 7(2)]
= S2 = 12(12 + 14) = 12 (26) = 13
Now we know,
S1 = 27 and a2 = S2 – S1
∴ a1 = 5 = 13 – 5 = 8
Now we have,
a1 = 5, a2 = 8, d = a2 – a1 = 8 – 5 = 3
an = a + (n – 1)d = 5 + (n – 1)3
= 5 + 3n – 3 = 3n + 2 (nth term)
∴ 20th term, a20 = (3 × 20) + 2 = 62

Question 47.
If Sn denotes the sum of first n terms of an A.P., prove that S30 = 3[S20 – S10]. (2015D)
Solution:
Let a be the first term and d be the common difference of the A.P.
Sn = n2[2a + (n − 1)d]
S30 = 302 [2a + (30 – 1)d] = 15[2a + 29d]
= 30a + 435d …(i)
S20 = 202 [2a + (20 – 1)d] = 10[2a + 19d]
= 20a + 190d …(ii)
S10 = 102[2a + (10 – 1)d] = 5[2a + 9d]
= 10a + 45d …(iii)
To prove, 3(S20 – S10) = S30
= 3(20a + 190d – 10a – 45d) …[From (i), (ii) & (iii)
= 3(10a + 145d)
= 30a + 435d = S30 …Hence Proved

Question 48.
If the ratio of the sum of first n terms of two A.Ps is (7n + 1): (4n + 27), find the ratio of their mth terms. (2016OD)
Solution:
Let A be first term and D be the common difference of 1st A.P.
Let a be the first term and d be the common difference of 2nd A.P.

∴ Required ratio = (14m – 6) : (8m + 23)

Question 49.
The digits of a positive number of three digits are in A.P. and their sum is 15. The number obtained by reversing the digits is 594 less than the original number. Find the number. (2016OD)
Solution:
Let hundred’s place digit = (a – d)
Let ten’s place digit = a
Let unit’s place digit = a + d
According to the Question,
a – d + a + a + d = 15
⇒ 3a = 15 ⇒ a = 5
Original number
= 100(a – d) + 10(a) + 1(a + d)
= 100a – 100d + 10a + a + d
= 111a – 99d
Reversed number
= 1(a – d) + 10a + 100(a + d)
= a – d + 10a + 100a + 100d
= 111a + 99d
Now, Original no. – Reversed no. = 594
111a – 99d – (111a + 99d) = 594
-198d = 594 ⇒ d = 594−198 = -3
∴ The Original no. = 111a – 99d
= 111(5) – 99(-3)
= 555 + 297 = 852

Question 50.
The sums of first n terms of three arithmetic progressions are S1 S2 and S3 respectively. The first term of each A.P. is 1 and their common differences are 1, 2 and 3 respectively. Prove that S1 + S3 = 2S2. (2016OD)
Solution:

Question 51.
Find the sum of all three digit natural numbers, which are multiples of 9. (2012D)
Solution:
To find: 108 + 117 + 126 + … + 999
1st term, a = 108
Common difference, d = 117 – 108 = 9
∴ a + (n – 1)d = an = 999
108 + (n – 1). 9 = 999
(n – 1)9 = 999 – 108 = 891
(n – 1) = 8919 = 99
n = 99 + 1 = 100
As Sn= n2(a1 + an)
∴ S100 = [latex]1002[/latex] (108 + 999)
= 50(1107) = 55350

Question 52.
Find the sum of all multiples of 7 lying between 500 and 900. (2012OD)
Solution:
To find: 504 + 511 + 518 + … + 896
a = 504, d = 511- 504 = 7, an = 896
a + (n – 1)d = an
∴ 504 + (n – 1)7 = 896
(n – 1)7 = 896 – 504 = 392

Arithmetic Progressions Class 10 Important Questions Long Answer (4 Marks)

Question 53.
If pth, qth and rth terms of an A.P. are a, b, c respectively, then show that (a – b)r + (b – c)p+ (c – a)q = 0. (2011D)
Solution:
Let A be the first term and D be the common difference of the given A.P.
pth term = A + (p – 1)D = a …(i)
qth term = A + (q – 1)D = b …(ii)
rth term = A + (r – 1)D = c … (iii)
L.H.S. = (a – b)r + (b – c)p + (c – a)q
= [A + (p – 1)D – (A + (q – 1)D)]r + [A + (q – 1)D – (A + (r – 1)D)]p + [A + (r – 1)D – (A + (p – 1)D)]q
= [(p – 1 – q + 1)D]r + [(q – 1 – r + 1)D]p + [(r – 1 – p + 1)D]q
= D[(p – q)r + (q – r)p + (r – p)q]
= D[pr – qr + qp – rp + rq – pq]
= D[0] = 0 = R.H.S.

Question 54.
The 17th term of an AP is 5 more than twice its 8th term. If the 11th term of the AP is 43, then find its nth term. (2012D)
Solution:

From (i),
a = 2(4) – 5 = 8 – 5 = 3
As an = a + (n – 1) d
∴ an = 3 + (n – 1) 4 = 3 + 4n – 4
an = (4n – 1)

Question 55.
The 15th term of an AP is 3 more than twice its 7th term. If the 10th term of the AP is 41, then find its nth term. (2012D)
Solution:

From (i),
a = 2(4) – 3
= 8 – 3 = 5
nth term = a + (n – 1) d
∴ nth term = 5 + (n – 1) 4
= 5 + 4n – 4 = (4n + 1)

Question 56.
The 16th term of an AP is 1 more than twice its 8th term. If the 12th term of the AP is 47, then find its nth term. (2012D)
Solution:

From (i) and (ii), a = 4 – 1 = 3
As nth term = a + (n – 1) d
∴ nth term = 3 + (n – 1) 4
= 3 + 4n -4 = 4n -1

Question 57.
A sum of ₹1,600 is to be used to give ten cash prizes to students of a school for their overall academic performance. If each prize is ₹20 less than its preceding prize, find the value of each of the prizes. (2012OD)
Solution:
Here S10 = 1600, d = -20, n = 10
Sn = n2 (2a + (n – 1)d]
∴ 102[2a + (10 – 1)(-20)] = 1600
2a – 180 = 320
2a = 320 + 180 = 500
a = 250
∴ 1st prize = a = ₹250
2nd prize = a2 = a + d = 250 + (-20) = ₹230
3rd prize = a3 = a2 + d = 230 – 20 = ₹210
4th prize = a4 = a3 + d = 210 – 20 = ₹190
5th prize = a5 = a4 + d = 190 – 20 = ₹170
6th prize = a6 = a5 + d = 170 – 20 = ₹150
7th prize = a7 = a6 + d = 150 – 20 = ₹130
8th prize = a8 = a7 + d = 130 – 20 = ₹110
9th prize = a9 = a8 + d = 110 – 20 = ₹590
10th prize = a10 = a9 + d = 90 – 20 = ₹70
= ₹ 1,600

Question 58.
Find the 60th term of the AP 8, 10, 12, …, if it has a total of 60 terms and hence find the sum of its last 10 terms. (2015OD)
Solution:
a = 8, d = a2 – a1 = 10 – 8 = 2, n = 60
a60 = a + 59d = 8 + 59(2) = 126
∴ Sum of its last 10 terms = S60 – S50
= n2(a + an) – n2(2a + (n – 1)d)
= 602 (8 + a60) – 502 (2 × 8 + (50 – 1)2)
= 30 (8 + 126) – 25 (16 + 98)
= 4020 – 25 × 114
= 4020 – 2850 = 1170

Question 59.
An Arithmetic Progression 5, 12, 19, … has 50 terms. Find its last term. Hence find the sum of its last 15 terms. (2015OD)
Solution:
Let a and d be the first term and common difference of A.P. respectively,
a = 5, d = 12 – 5 = 7, n = 50
∴ an = a + (n – 1)d
a50 = 5 + 49(7) = 5 + 343 = 348
∴ Sum of its last 15 terms = S50 – S35
= n2(a + an) – n2 (2a + (n − 1)d)
= 502 (5 + 348) – 352 [2(5) + (35 – 1)7]
= 25(353) – 352 (10 + 238)
= 8825 – 35 × 124
= 8825 – 4340 = 4485

Question 60.
If the sum of first 4 terms of an A.P. is 40 and that of first 14 terms is 280, find the sum of its first n terms. (2011D)
Solution:
Sn = n2[2a + (n − 1) d] …(i)

Putting the value of d = 2 in (ii), we get a = 7
∴ Sn = n2[2(7) + (n – 1). 2]
= n2.2 [7 + n – 1]
= n (n + 6) or n2 + 6n

Question 61.
The first and the last terms of an A.P. are 8 and 350 respectively. If its common difference is 9, how many terms are there and what is their sum? (2011D)
Solution:
Here a = 8, an = 350, d = 9
As we know, a + (n − 1) d = a2
∴ 8 + (n – 1) 9 = 350
(n − 1) 9 = 350 – 8 = 342
n – 1 = 3429 = 38
n = 38 + 1 = 39
∴ There are 39 terms.
∴ Sn = n2(a + an)
∴ S39 = 392 (8 + 350) = 392 × 358
= 39 × 179 = 6981

Question 62.
Sum of the first 20 terms of an AP is -240, and its first term is 7. Find its 24th term. (2012D)
Solution:
Given: a = 7, S20 = -240
Here, Sn = n2[2a + (n – 1)d]
∴ S20 = 202[2(7) + (20 – 1)d]
-240 = 10(14 + 19d)
–24010 = 14 + 19d = -24
19d = -24 – 14 = -38
⇒ d = −3819 = -2 …(i)
Again, an = a + (n – 1)d
∴ a24 = 7 + (24 – 1) (-2) … [From (i)
= 7 – 46 = -39

Question 63.
Find the common difference of an A.P. whose first term is 5 and the sum of its first four terms is half the sum of the next four terms. (2012OD)
Solution:
Here a = 5 … (i)
Here, a1 + a2 + a3 + a4 = 12 (a5 + a6 + a7 + a8)
∴ a + (a + d) + (a + 2d) + (a + 3d)
= 12 [(a + 4d) + (a + 5d) + (a + 6d) + (a + 780] …[an = a(n – 1)d
∴ 4a + 6d = 12