163-NCERT-10-5-Arithmetic Progressions - Ex-5.4

NCERT

10th Mathematics

Exercise 5.4

Topic: 5 Arithmetic Progressions

Click here for ⇨ NCERT-10-5-Arithmetic Progressions - Ex- 5.3

EXERCISE 5.4

1. Which term of the AP: 121, 117, 113, . . ., is its first negative term?

[Hint: Find n for a_n < 0]

Solution:

1) According to the problem, a₁ = 121_, a₂ = 117_, a₃ = 113. . . so d = - 4,

2) We will have to find n using the above information.

a_n = a + (n – 1) d

a_n = 121 + (n – 1) (- 4)

a_n = 121 + (- 4n + 4)

a_n = 121 - 4n + 4
a_n = 125 - 4n

3) As we have to find which first term is a negative term. 

a_n < 0

125 - 4n < 0

125 < 4n

4n > 125

n > 125/4

n > 31.25

4) So the first negative term of this AP is the 32nd term. 

2. The sum of the third and the seventh terms of an AP is 6 and their product

is 8. Find the sum of first sixteen terms of the AP.

Solution:

1) Let the first term be "a" and the common difference be "d".

2) Here a₃ + a₇ = 6 ---------- equation 1

3) Here a₃ x a₇ = 8 ---------- equation 2

4) Now we will find a₃ and a₇,

a) First we will find a₃ 

a_n = a + (n – 1) d

a₃ = a + (3 – 1) d

a₃ = a + 2d ---------- equation 3

b) Now we will find a₇ 

a_n = a + (n – 1) d

a₇ = a + (7 – 1) d

a₇ = a + 6d ---------- equation 4

5) From equations 1, 3, and 4, we have,

a₃ + a₇ = 6

a + 2d + a + 6d = 6
2a + 8d = 6
2(a + 4d) = 6
(a + 4d) = 6/2
(a + 4d) = 3
a = 3 - 4d ---------- equation 5

6) From equations 2, 3, 4, and 5, we have,

a₃ x a₇ = 8

(a + 2d) x (a + 6d) = 8

(3 - 4d + 2d) x (3 - 4d + 6d) = 8

(3 - 2d) x (3 + 2d) = 8

(3² - 4d²) = 8

(9 - 4d²) = 8

4d² = 9 - 8
4d² = 1
d² = 1/4
d² = 1/4

d = ± 1/2
d = 1/2 or - 1/2 ---------- equation 6

7) Put d = 1/2 and d = - 1/2 from equation 6 in equation 5,

a) First we take d = 1/2, we get

a = 3 - 4d

a = 3 - 4(1/2)

a = 3 - 2

a = 1 ---------- equation 7

b) First we take d = - 1/2, we get

a = 3 - 4d

a = 3 - 4(- 1/2)

a = 3 - (- 2)

a = 3 + 2

a = 5 ---------- equation 8

8) We know that the sum of the first n terms of an AP is given by:

S_n = (n/2)[2a + (n - 1) d]

a) First we will find sum of first 16 terms with a = 1 and d = 1/2:

S_n = (n/2)[2a + (n - 1) d]

S₁₆ = (16/2)[2(1) + (16 - 1) (1/2)]
S₁₆ = 8[2 + (15) (1/2)]

S₁₆ = 8[2 + (15/2)] 

S₁₆ = 8[(4 + 15)]/2
S₁₆ = 4(19)
S₁₆ = 76 ---------- equation 9

b) First we will find sum of first 16 terms with a = 5 and d = (- 1/2):

S_n = (n/2)[2a + (n - 1) d]

S₁₆ = (16/2)[2(5) + (16 - 1) (- 1/2)]
S₁₆ = 8[10 + (15) (- 1/2)]

S₁₆ = 8[10 - (15/2)] 

S₁₆ = 8[(20 - 15)]/2
S₁₆ = 4(5)
S₁₆ = 20 ---------- equation 10

 9) From equations 9 and 10, we have,

a) S₁₆ = 76 when a = 1 and d = 1/2

b) S₁₆ = 20 when a = 5 and d = - 1/2.

3. A ladder has rungs 25 cm apart. (see the following fig.). The rungs decrease

uniformly in length from 45 cm at the bottom to 25 cm at the top. If the top and the bottom rungs are 2½ m apart, what is the length of the wood required for the rungs?

[Hint : Number of rungs = (250/25) + 1]

Solution:

1) The distance between the rungs is 25 cm.

2) Distance between the top rung and the bottom

     rung is 2½ m. i.e. 5/2 m = 2.5 m = 250 cm.

3) So total number of rungs = [(250/25) + 1] = 11.

4) The length of rungs is decreasing from bottom to top uniformly, so they are in AP.

5) Here, a₁ = 45, l = 25 and n = 11, so,

        S_n = (n/2)[a + l]

        S₁₁ = (11/2)[45 + 25]

        S₁₁ = (11/2)[70]

        S₁₁ = 11(35)

        S₁₁ = 385

6) The length of the wood required for the rungs is         385 cm.

4. The houses of a row are numbered consecutively from 1 to 49. Show that

there is a value of x such that the sum of the numbers of the houses preceding the house numbered x is equal to the sum of the numbers of the houses following it. Find this value of x. [Hint : s_{x - 1} = S₄₉ – S_x]

Solution:

1) Row houses are numbered 1, 2, 3, . . 49.

2) So, a₁ = 1_, a₂ = 2_, a₃ = 3. . . so d = 1,

3) The sum of the number of houses preceding xth house will be S_(x-1).

S_n = (n/2)[2a + (n – 1) d]

S_(x-1) = ((x-1)/2)[2(1) + (x - 1 - 1) (1)]

S_(x-1) = ((x-1)/2)[2 + (x - 2)] 

S_(x-1) = ((x-1)/2)[x]

S_(x-1) = x(x-1)/2 ---------- equation 1

4) Now we will find S₄₉

S_n = (n/2)[2a + (n – 1) d]

S₄₉ = (49/2)[2(1) + (49 - 1) (1)]

S₄₉ = (49/2)[2 + 48] 

S₄₉ = (49/2)(2)[1 + 24]

S₄₉ = (49)[25]

S₄₉ = 1225 ---------- equation 2

5) Now we will find S_x

S_n = (n/2)[2a + (n – 1) d]

S_x = (x/2)[2(1) + (x - 1) (1)]

S_x = (x/2)[2 + (x - 1)] 

S_x = (x/2)[x + 1]

S_x = x(x + 1)/2 ---------- equation 3

6) Now we will find S₄₉ – S_x using equations 2 and 3.

S₄₉ - S_x = 1225 - [x(x + 1)/2] ---------- equation 4

7) According to the problem, S_(x-1) =  S₄₉ - S_x  ---------- equation 5

8) From equations 1, 4, and 5, we have,

S_(x-1) =  S₄₉ - S_x

x(x-1)/2 =  1225 - [x(x + 1)/2]

x(x-1)/2 =  [2450 - (x(x + 1))]/2

x(x-1) =  [2450 - (x(x + 1))]
x² - x = 2450 - x² - x
2x² = 2450
x² = 1225
x = ± 35

x = 35 or - 35

9) As the number of houses can't be negative, the value of x will be 35.

 

5. A small terrace at a football ground comprises of 15 steps each of which is

50 m long and built of solid concrete. Each step has a rise of 1/4 m and a tread of 1/2 m. (see the following fig.). Calculate the total volume of concrete required to build the terrace. [Hint: Volume of concrete required to build the first step = (1/4) x (1/2) x 50 m³]

 

1) According to the problem and the figure, we have,

i) The heights of the steps are given bellow:

a) The height of the first step is (1/4) m

b) The height of the second step is (1/4) + (1/4) = (1/2) m

c) The height of the 3rd step is (1/2) + (1/4) = (3/4) m

d) The height of the 4th step is (3/4) + (1/4) = (1) m

2) If we consider the height in the changing form, the width will be the same for all

the steps. i.e. the width will be 1/2 m for all the steps.

3) Here the length of the terrace is 50 m.

4) Here we can find:

The volume of the steps = volume of the cuboid

The volume of the steps = Length x Breadth x Height

5) Now we will find the volumes of the steps:

a) The volume of the first step

= (1/4) x (1/2) x (50)

= (1/8) x (50)
= (50/8)

= (25/4) ---------- equation 1

b) The volume of the second step

= (1/2) x (1/2) x (50)

= (1/4) x (50)
= (50/4) ---------- equation 2 

c) The volume of the 3rd step

= (3/4) x (1/2) x (50)

= (3/4) x (25)
= (75/4) ---------- equation 3 

d) The volume of the 4th step is (3/4) + (1/4) = (1) m 

= (1) x (1/2) x (50)

= (1) x (25)

= (25) ---------- equation 4

6) From equations 1, 2, 3, and 4, volumes of the steps are in AP.

7) So, here, a = 25/4, d = 50/4 - 25/4 = 25/4, and n = 15,

8) so the sum of these 15 steps will be,

S_n = (n/2)[2a + (n – 1) d]
S₁₅ = (15/2)[2(25/4) + (15 – 1) (25/4)]
S₁₅ = (15/2)[2(25/4) + (14) (25/4)]
S₁₅ = (15/2) x (2(25/4)) x [1 + (7)]
S₁₅ = (15/2) x (2(25/4)) x [8]
S₁₅ = [(15 x 2 x 25)/8] x [8]
S₁₅ = (15 x 2 x 25)
S₁₅ = (30 x 25)
S₁₅ = (750)

9) So, the volume of concrete required to build the terrace is 750 m³.

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