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Ex-9.4 Arithmetic Progressions (Part - 2), Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10 PDF Download

Question 15. Find n if the given value of x is the n term if the given A.P.

(i) 1,21/11,31/11,41/11,....:x=141/11

(ii) 5(1/2),11,16(1/2),22,...:x=550

(iii) - 1 , - 3, - 5, - 7, . . . : x = - 151

(iv) 25, 50, 70, 100, . . . : x = 1000

Solution:

(i) Given sequence is

1,21/11,31/11,41/11,....:x=141/11

first term (a) = 1

Common difference (d)  = 21/11 – 1

= (21 – 11)/11

= 10/11

nth term an = a + (n - 1) X d

⇒  171/11=1 + (n – 1).10/11

⇒  171/11 – 1=(n – 1).10/11

⇒ (171 – 11)/11=(n – 1).10/11

⇒  160/11=(n – 1).1011

⇒  (n – 1)=160/11X11/10

⇒ n = 17

  

(ii) Given sequence is

5(1/2),11,16(1/2),22,...:x=550

first term  (a) = 5(1/2) = 11/2

Common Difference (d) = 11 – 11/2 = 11/2

nth term an = a + (n - 1) X d

⇒  550 = 11/2 + (n – 1).11/2

⇒  550 = 11/2[1 + n – 1]

⇒ n = 550 X 2/11

⇒ 100

 

(iii) Given sequence is,

- 1 , - 3, - 5, - 7, . . . : x = - 151

first term (a) = - 1

Common Difference (d) = - 3 – (- 1)

= - 3 + 1

= - 2

nth term an = a + (n - 1) X d

⇒ - 151 = - 1 + (n – 1) X - 2

⇒ - 151 = - 1 – 2n + 2

⇒ – 151 = 1 – 2n

⇒ 2n = 152

⇒ n = 76

 

(iv)  Given sequence is,

25, 50, 70, 100, . . . : x = 1000

First term (a) = 25

Common Difference (d) = 50 – 25 = 25

nth term an = a + (n - 1) X d

we have an = 1000

⇒ 1000 = 25 + (n – 1) 25

⇒ 975 = (n – 1)25

⇒ n – 1 = 39

⇒ n = 40

 

Question 16. If an A.P. consists of n terms with the first term a and nth term 1. Show that the sum of     the mthterm from the beginning and the mth term from the end is (a + 1).

Solution:  First term of the sequence is a

Last term (l) = a + (n – 1) d

Total no. of terms = n

Common Difference = d

mth term from the beginning am = a + (n – 1)d

mth term from the end = l + (n – 1)( - d)

⇒ a(n – m + 1) = l – (n – 1)d

⇒ am  + a(n – m + 1) = a + (n – 1)d + (l – (n – 1)d)

= a + (n - 1)d + l – (n - 1)d

= a + l


Question 17. Find the A.P. whose third term is 16 and seventh term exceeds its fifth term by 12.

Solution: Given, a3 = 16

⇒ a + (3 – 1)d = 16

⇒ a + 2d = 16                                                                                    … (i)

and a7  – 12 = a5

⇒ a + 6d - 12 = a + 4d

⇒   2d = 12

⇒ d = 6

Put d = 6 in equation (1)

a + 2 X 6 = 16

⇒ a + 12 = 16

⇒ a = 4. So, the sequence is 4, 10, 16, . . .


Question 18. The 7th term of an A.P is 32 and its 13th term is 62. Find the A.P.

Solution: Given

a 7 = 32

⇒ a + (7 – 1)d = 32

⇒ a + 6d = 32                                                                                                    … (i)

and a13 = 62

⇒ a + (13 – 1)d = 62

⇒ a + 12d = 62                                                                                                  …(ii)

equation (ii) – (i), we have

(a + 12d) – (a + 6d) = 62 – 32

⇒ 6d = 30

⇒ d = 5

Putting d = 5 in equation (i)

a + 6 X 5 = 32

⇒ a = 32 – 30

⇒ a = 2

So, the obtained A.P. is

2, 7, 12, 17, . . .

 

Question 19. Which term of the A.P. 3, 10, 17, . . . will be 84 more than its 13th term?

Solution:

Given A.P. is 3, 10 , 17, . . .

First term (a) = 3

Common Difference (d) = 10 - 3 = 7

Let nth term of the A.P. will be 84 more than its 13th term, then

an = 84 + a13

⇒ a + (n – 1)d = a + (13 – 1)d + 84

⇒ (n – 1) X 7 = 12 X 7 + 84

⇒ n – 1 = 24

⇒ n = 25

Hence, 25th ter, of the given A.P. is 84 more than the 13th term.

 

Question 20. Two arithmetic progressions have the same common difference. The difference between their 100th terms is 100. What is the difference between their 1000th terms?

Solution:

Let the two A.P. be a1, a2 , a3 , . . .  and  b1, b2 , b3, . . .

an = a1 + (n – 1)d and bn = a1 + (n – 1)d

Since common difference of two equation is same and given difference between 100th

terms is 100

⇒ a100  – b100 = 100

⇒ a + (100 – 1)d – [b + (100 – 1)d] = 100

⇒ a + 99d - b – 99d = 100

⇒ a + b = 100                                                                                                    … (1)

Difference between 100th term is

⇒ a1000  – b­1000

= a + (1000 – 1)d – [b + (1000 – 1)d]

= a + 999d – b – 999d = a – b = 100            (from equation 1)

Therefore, Difference between 1000th terms of two A.P. is 100.


Question 21. For what value of n, the nth terms of the Arithmetic Progression 63, 65, 67, . . . and , 3, 10, 17, . . . are equal?

Solution:

Given two A.P.s are:

63, 65, 67, . . . and 3, 10, 17, . . .

First term for first A.P. is (a) = 63

Common difference (d) is 65 – 63 = 2

nth term (an) = a + (n – 1)d

= 63 + (n – 1) 2

First term for second A.P.  is (a’) = 3

Common Difference (d’) = 10 – 3

= 7

nth term (a’) = a’ + (n – 1)d

=  3 + (n – 1) 7

Let nth  term of the two sequence be equal then,

⇒ 63 + (n – 1)2 = 3 + (n – 1)7

⇒ 60 = (n – 1).7 – (n – 1).2

⇒ 60 = 5(n – 1)

⇒ n – 1 = 12

⇒ n = 13

Hence, the 13th term of both the A.P.s are same.

 

Question 22. How many multiple of 4 lie between 10 and 250?

Solution: Multiple of 4 after 10 is 12 and multiple of 4 before 250 is 120/4, remainder is 2, so,

250 – 2 = 248

248 is the last multiple of 4 before 250

the sequence is

12,. . . . . . . . , 248

with first term (a) = 12

Last term (l) = 258

Common Difference (d) = 4

nth term (an ) = a + (n – 1)d

Here nth term a n  = 248

⇒ 248 = a + (n – 1)d

⇒ 12 + (n – 1)4 = 248

⇒ (n – 1)4 = 236

⇒ n – 1 = 59

⇒ n = 59 + 1

⇒ N = 60

Therefore, there are 60 terms between 10 and 250 which are multiples of 4

 

Question 23. How many three digit numbers are divisible by 7 ?

Solution: The three digit numbers are 100, . . . . . . , 999

105 us the first 3 digit number which is divisible by 7

and when we divide 999 with 7 remainder is 5, so, 999 – 5 = 994

994 Is the last three digit number which is divisible by 7 .

The sequence here is

105, .. . . . . . . . , 994

First term (a) = 105

Last term (l) = 994

Common Difference (d) = 7

Let there are n numbers in the sequence then,

⇒ an  = 994

⇒ a + (n – 1)d = 994

⇒ 105 + (n – 1)7 = 994

⇒ (n – 1) X 7 = 889

⇒ n – 1 = 127

⇒ n = 128

Therefore, there are 128 three digit numbers which are divisible by 7.

 

Question 24. Which term of the A.P. 8, 14, 20, 26, . . . will be 72 more than its 41st term?

Solution: Given sequence

8, 14, 20, 26, . . .

Let its n term be 72 more than its 41st term

⇒ an  = a41   + 72                                                                                 … (1)

For the given sequence,

first term (a) = 8,

Common Difference (d) = 14 – 8 = 6

from equation (1), we have

an  = a41   + 72

⇒ a + (n – 1)d = a + (41 – 1)d + 72

⇒ 8 + (n – 1)6 = 8 + 40 X 6 + 72

⇒ (n – 1)6 = 312

⇒ n – 1 = 52

⇒ n = 53

Therefore, 53rd term is 72 more than its 41st term.

 

Question 25. Find the term of the Arithmetic Progression 9, 12, 15, 18, . . . which is 39 more than its 36th term.

Solution:  Given A.P. is

9, 12, 15, 18 , . . .

Here we have,

First term (a) = 9

Common Difference (d) = 12 – 9 = 3

Let its nth term is 39 more than its 36th term

So, an­  = 39 + a36

⇒ a + (n – 1)d = 39 + a + (36 – 1)d

⇒ (n - 1)3 = 39 + 35 X 3

⇒ (n - 1)3 = (13 + 35) 3

⇒ n – 1 = 48

⇒ n = 49

Therefore, 49th term of the A.P. 39 more than its 36th term.

 

Question 26. Find the 8th term from the end of the A.P. 7, 10, 13, . . . , 184.

Solution:

Given A.P. is 7, 10, 13, . . . , 184

First term (a) = 7

Common Difference (d) = 10 – 7 = 3

last term (l) = 184

nth term from end = l – (n – 1)d

8th term from end = 184 – (8 – 1)3

= 184 – 7 X 3

= 184 – 21

= 183

Therefore, 8th term from the end is 183

 

Question 27. Find the 10th term from the end of the A.P. 8, 10, 12, . . . , 126

Solution: Given A.P. is 8, 10, 12, . . . , 126

First term (a) = 8

Common Difference (d) = 10 – 8 = 2

Last term (l) = 126

nth term from end is : l – (n - 1)d

So, 10th term from end is : l – (10 – 1)d

= 126 – 9 X 2

= 126 – 18

= 108

Therefore, 109 is the 10th term from the last in the A.P. 8, 10 ,12 , . . 126.

 

Question 28. The sum of 4th and 8th term of an A.P. is 24 and the sum of 6th and 10th term is 44. Find the Arithmetic Progression.

Solution:    Given                a4  + a8  = 24

⇒ a + (4 – 1)d + a + (8 – 1)d = 24

⇒ 2a + 3d + 7d = 24

⇒ 2a + 10d = 24                                                                                …(1)

and                              a6  + a10  = 44

⇒ a + (6 – 1)d + a + (10 – 1)d = 44

⇒ 2a + 5d + 9 d = 44

⇒ 2a + 14d = 44                                                                                …(2)

equation (2) – equation (1), we get

2a + 14d – (2a + 10d) = 44 - 24

⇒ 4d = 20

⇒ d = 5

Put d = 5 in equation (1), we get

2a + 10X5 = 24

⇒ 2a = 24 – 50

⇒ 2a = - 26

⇒ a = - 13

The A.P is - 13, – 7, - 2, . . .

 

Question 29: Which term of the A.P. is 3, 15, 27, 39, . . . will be 120 more than its 21st term?

Solution: Given A.P. is 3, 15, 27, 39, . . .

First term (a) = 3

Common Difference (d) = 15 – 3 = 12

Let nth term is 120 more than 21st term

⇒ an  = 120 + a21

⇒ a + (n – 1)d = 120 + a + (21 – 1)d

⇒ (n - 1)d = 120 + 20d

⇒ (n – 1)12 = 120 + 20 X 12

⇒ n – 1 = 10 + 20

⇒ n = 31

Therefore, 31st term of the A.P. is 120 more than the 21st term.

 

Question 30. The 17th term of an A.P. is 5 more than twice its 8th term. If the 11th term of the A.P. is 43. Find the nth term.

Solution:  Given

17th term of an A.P is 5 more than twice its 8th term

⇒ a17  = 5 + 2a8

⇒ a + (17 – 1)d = 5 + 2 [ a + (8 – 1)d  ]

⇒ a + 16d = 5 + 2a + 14d

⇒ a + 5 = 2d                                                                                       … (1)

and 11th term of the A>P. is 43

a11  = 43

⇒ a + (11 – 1)d = 43

⇒ a + 10d = 43

⇒ a + 5 X 2d = 43

from equation (1)

⇒ a + 5 X (a + 5) = 43

⇒ a + 5a + 25 = 43

⇒ 6a = 18

⇒ a = 3

Putting the value of a = 3, in equation (1), we get

3 + 5 = 2d

⇒ 2d = 8

⇒ d = 4

We have to find the nth term (an) = a + (n – 1)d

= 3 + (n – 1)4

= 3 + 4n – 4

= 4n – 1

Therefore, nth term is 4n – 1

The document Ex-9.4 Arithmetic Progressions (Part - 2), Class 10, Maths RD Sharma Solutions | Extra Documents, Videos & Tests for Class 10 is a part of the Class 10 Course Extra Documents, Videos & Tests for Class 10.
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FAQs on Ex-9.4 Arithmetic Progressions (Part - 2), Class 10, Maths RD Sharma Solutions - Extra Documents, Videos & Tests for Class 10

1. What is an arithmetic progression?
Ans. An arithmetic progression is a sequence of numbers in which the difference between consecutive terms is constant. For example, 2, 5, 8, 11, 14 is an arithmetic progression with a common difference of 3.
2. How can we find the nth term of an arithmetic progression?
Ans. To find the nth term of an arithmetic progression, we can use the formula: nth term = first term + (n - 1) * common difference For example, if the first term is 2 and the common difference is 3, the nth term can be found using the formula nth term = 2 + (n - 1) * 3.
3. What is the formula to find the sum of n terms in an arithmetic progression?
Ans. The formula to find the sum of n terms in an arithmetic progression is: Sum of n terms = (n/2) * (first term + last term) We can also use the formula: Sum of n terms = (n/2) * [2 * first term + (n - 1) * common difference] Both formulas will give the same result.
4. How can we find the number of terms in an arithmetic progression?
Ans. To find the number of terms in an arithmetic progression, we can use the formula: Number of terms = (last term - first term + common difference) / common difference For example, if the first term is 2, the last term is 14, and the common difference is 3, the number of terms can be found using the formula: (14 - 2 + 3) / 3 = 5.
5. Can an arithmetic progression have a negative common difference?
Ans. Yes, an arithmetic progression can have a negative common difference. In such cases, the terms of the progression will decrease instead of increasing. For example, -2, -5, -8, -11, -14 is an arithmetic progression with a common difference of -3.
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