ICSE Solutions for Selina Concise Chapter 7 Ratio and Proportions Class 10 Maths
Exercise 7(A)
1. If a: b = 5: 3, find: 5a – 3b/ 5a + 3b
Solution
Given, a: b = 5: 3
So, a/b = 5/3
Now,
2. If x: y = 4: 7, find the value of (3x + 2y): (5x + y).
Solution
Given, x: y = 4: 7
So, x/y = 4/7
3. If a: b = 3: 8, find the value of 4a + 3b/ 6a – b.
Solution
Given, a: b = 3: 8
So, a/b = 3/8
4. If (a – b): (a + b) = 1: 11, find the ratio (5a + 4b + 15): (5a – 4b + 3).
Solution
Given,
(a – b)/ (a + b) = 1/ 11
11a – 11b = a + b
10a = 12b
a/b = 12/10 = 6/5
Now, lets take a = 6k and b = 5k
So,
∴ (5a + 4b + 15): (5a – 4b + 3) = 5: 1
5. Find the number which bears the same ratio to 7/33 that 8/21 does to 4/9.
Solution
Let consider the required number to be x/y
Now, given that
Ratio of 8/21 to 4/9 = (8/21)/ (4/9) = (8/21) × (9/4) = 6/7
Hence, we have
(x/y)/(7/33) = 6/7
x/y = (6/7)×(7/33)
= 2/11
∴ the required number is 2/11.
6. If (m+n)/(m+3n) = 2/3, find : 2n2/(3m2+ mn)
Solution
Given,
3(m + n) = 2(m + 3n)
⇒ 3m + 3n = 2m + 6n
⇒ m = 3n
⇒ m/n = 3/1
Now,
7. Find x/y; when x2 + 6y2 = 5xy
Solution
Given,
x2 + 6y2 = 5xy
Dividing by y2 both side, we have
Let x/y = a
So,
a2 – 5a + 6 = 0
⇒ (a – 2) (a – 3) = 0
⇒ a = 2 or a = 3
∴ x/y = 2 or 3
8. If the ratio between 8 and 11 is the same as the ratio of 2x – y to x + 2y, find the value of 7x/ 9y.
Solution
Given,
(2x – y)/ (x + 2y) = 8/11
On cross multiplying, we get
11(2x – y) = 8(x + 2y)
⇒ 22x – 11y = 8x + 16y
⇒ 14x = 27y
⇒ x/y = 27/14
So, 7x/9y = (7×27)/(9×14) = 3/2
9. Divide Rs 1290 into A, B and C such that A is 2/5 of B and B: C = 4:3.
Solution
Given,
B: C = 4: 3
So, B/C = 4/3
⇒ C = (3/4) B
And, A = (2/5) B
We know that,
A + B + C = Rs 1290
(2/5) B + B + (3/4) B = 1290
Taking L.C.M,
(8B + 20B + 15B)/20 = 1290
⇒ 43B = 1290×20
⇒ B = 1290× 20/43 = 600
So, A = (2/5)×600 = 240
And, C = (3/4)×600 = 450
∴ A gets Rs 600, B gets Rs 240 and C gets Rs 450
10. A school has 630 students. The ratio of the number of boys to the number of girls is 3: 2. This ratio changes to 7: 5 after the admission of 90 new students. Find the number of newly admitted boys.
Solution
Let’s consider the number of boys be 3x.
Then, the number of girls = 2x
⇒ 3x + 2x = 630
5x = 630
x = 126
So, the number of boys = 3x = 3×126 = 378
And, number of girls = 2x = 2×126 = 252
After admission of 90 new students,
Total number of students = 630 + 90 = 720
Here, let take the number of boys to be 7x
And, the number of girls = 5x
⇒ 7x + 5x = 720
⇒ 12x = 720
⇒ x = 720/12
⇒ x = 60
So, the number of boys = 7x = 7×60 = 420
And, the number of girls = 5x = 5×60 = 300
∴ the number of newly admitted boys = 420 – 378 = 42
11. What quantity must be subtracted from each term of the ratio 9: 17 to make it equal to 1: 3?
Solution
Let x be subtracted from each term of the ratio 9: 17.
⇒ 27 – 3x = 17 – x
⇒ 10 = 2x
⇒ x = 5
∴ the required number which should be subtracted is 5.
12. The monthly pocket money of Ravi and Sanjeev are in the ratio 5: 7. Their expenditures are in the ratio 3: 5. If each saves Rs. 80 every month, find their monthly pocket money.
Solution
Given,
The pocket money of Ravi and Sanjeev are in the ratio 5: 7
So, we can assume the pocket money of Ravi as 5k and that of Sanjeev as 7k.
Also, give that
The expenditure of Ravi and Snajeev are in the ratio 3: 5
So, it can be taken as the expenditure of Ravi as 3m and that of Sanjeev as 5m.
And, each of them saves Rs 80
This can be expressed as below:
5k – 3m = 80 ... (a)
7k – 5m = 80 … (b)
Solving equations (a) and (b), we have
k = 40 and m = 40
∴ the monthly pocket money of Ravi is Rs 5k = Rs 5×40 = Rs 200 and that of Sanjeev is Rs 7k = Rs 7×40 = Rs 280.
13. The work done by (x – 2) men in (4x + 1) days and the work done by (4x + 1) men in (2x – 3) days are in the ratio 3: 8. Find the value of x.
Solution
On assuming that the same amount of work is done one day by all the men and one day work of each man = 1 units, we have
Amount of work done by (x – 2) men in (4x + 1) days
= Amount of work done by (x – 2)×(4x + 1) men in one day
= (x – 2)(4x + 1) units of work
Similarly, we have
Amount of work done by (4x + 1) men in (2x – 3) days
= (4x + 1)×(2x – 3) units of work
Then according to the question, we have
⇒ 8x – 16 = 6x – 9
⇒ 2x = 7
⇒ x = 7/2
14. The bus fare between two cities is increased in the ratio 7: 9. Find the increase in the fare, if:
(i) the original fare is Rs 245;
(ii) the increased fare is Rs 207.
Solution
From the question we have,
Increased (new) bus fare = (9/7)× original bus fare
(i) We have,
Increased (new) bus fare = 9/7 × Rs 245 = Rs 315
Thus, the increase in fare = Rs 315 – Rs 245 = Rs 70
(ii) Here we have,
Rs 207 = (9/7) × original bus fare
Original bus fare = Rs 207 × 7/9 = Rs 161
Thus, the increase in fare = Rs 207 – Rs 161 = Rs 46
15. By increasing the cost of entry ticket to a fair in the ratio 10: 13, the number of visitors to the fair has decreased in the ratio 6: 5. In what ratio has the total collection increased or decreased?
Solution
Let’s take the cost of the entry ticket initially and at present to be 10x and 13x respectively.
And let the number of visitors initially and at present be 6y and 5y respectively.
So,
Initially, the total collection = 10x × 6y = 60 xy
And at present, the total collection = 13x × 5y = 65 xy
Hence,
The ratio of total collection = 60 xy: 65 xy = 12: 13
∴ it’s seen that the total collection has been increased in the ratio 12: 13.
Exercise 7(B)
1. Find the fourth proportional to:
(i) 1.5, 4.5 and 3.5 (ii) 3a, 6a2 and 2ab2
Solution
(i) Let’s assume the fourth proportional to 1.5, 4.5 and 3.5 be x.
1.5: 4.5 = 3.5: x
⇒ 1.5 × x = 3.5 × 4.5
⇒ x = (3.5 × 4.5)/ 1.5
⇒ x = 10.5
(ii) Let’s assume the fourth proportional to 3a, 6a2 and 2ab2 be x.
3a: 6a2 = 2ab2: x
3a × x = 2ab2 x 6a2
3a × x = 12a3b2
x = 4a2b2
2. Find the third proportional to:
(i) 2(2/3) and 4
(ii) a – b and a2 – b2
Solution
(i) Let’s take the third proportional to
and 4 be x.So,, 4, x are in continued proportion.
⇒ 8/3: 4 = 4: x
⇒ (8/3)/4 = 4/x
⇒ x = 16 x 3/8 = 6
(ii) Let’s take the third proportional to a – b and a2 – b2 be x.
So, a – b, a2 – b2, x are in continued proportion.
a – b: a2 – b2 = a2 – b2: x
3. Find the mean proportional between:
(i) 6 + 3√3 and 8 – 4√3
(ii) a – b and a3 – a2b
Solution
(i) Let the mean proportional between 6 + 3√3 and 8 – 4√3 be x.
So, 6 + 3√3, x and 8 – 4√3 are in continued proportion.
6+3√3 : x = x : 8 – 4√3
⇒ x×x = (6 + 3√3)×(8 – 4√3)
⇒ x2 = 48 + 24√3 – 24√3 – 36
⇒ x2 = 12
⇒ x= 2√3
(ii) Let the mean proportional between a – b and a3 – a2b be x.
a – b, x, a3 – a2b are in continued proportion.
⇒ a – b: x = x: a3 – a2b
⇒ x×x = (a – b) (a3 – a2b)
⇒ x2 = (a – b) a2(a – b) = [a(a – b)]2
⇒ x = a(a – b)
4. If x + 5 is the mean proportional between x + 2 and x + 9; find the value of x.
Solution
Given, x + 5 is the mean proportional between x + 2 and x + 9.
So, (x + 2), (x + 5) and (x + 9) are in continued proportion.
(x + 2): (x + 5) = (x + 5): (x + 9)
⇒ (x + 2)/(x + 5) = (x + 5)/(x + 9)
⇒ (x + 5)2 = (x + 2)(x + 9)
⇒ x2 + 25 + 10x = x2 + 2x + 9x + 18
⇒ 25 – 18 = 11x – 10x
⇒ x = 7
5. If x2, 4 and 9 are in continued proportion, find x.
Solution
Given, x2, 4 and 9 are in continued proportion
So, we have
x2/4 = 4/9
⇒ x2 = 16/9
Thus, x = 4/3
6. What least number must be added to each of the numbers 6, 15, 20 and 43 to make them proportional?
Solution
Let assume the number added to be x.
So, (6 + x): (15 + x) :: (20 + x): (43 + x)
⇒ (6 + x)/ (15 + x) = (20 + x)/(43 + x)
⇒ (6 + x) (4 + x) = (20 + x) (43 + x)
⇒ 258 + 6x + 43x + x2 = 300 + 20x = 15x + x2
⇒ 49x – 35x = 300 – 258
⇒ 14x = 42
⇒ x = 3
∴ the required number which should be added is 3.
7. (i) If a, b, c are in continued proportion,
Show that: (a2 + b2)/b(a+c) = b(a+c)/(b2 + c2)
Solution
Given,
a, b, c are in continued proportion.
So, we have
a/b = b/c
⇒ b2 = ac
Now,
(a2 + b2) (b2 + c2) = (a2 + ac) (ac + c2) [As b2 = ac]
= a(a + c) c(a + c)
= ac(a + c)2
= b2(a + c)2
(a2 + b2) (b2 + c2) = [b(a + c)][b(a + c)]
Thus, L.H.S = R.H.S
Hence, Proved
(ii) If a, b, c are in continued proportion and a(b – c) = 2b, prove that: a – c = 2(a + b)/ a
Solution
Given,
a, b, c are in continued proportion.
So, we have
a/b = b/c
⇒ b2 = ac
And, given a(b – c) = 2b
ab – ac = 2b
⇒ ab – b2 = 2b
⇒ ab = 2b + b2
⇒ ab = b(2 + b)
⇒ a = b + 2
⇒ a – b = 2
Now, taking the L.H.S we have
L.H.S = a – c
= a(a – c)/ a [Multiply and divide by a]
= a2 – ac/ a
= a2 – b2/ a
= (a – b) (a + b)/a
= 2(a + b)/a
= R.H.S
Hence, Proved
(iii) If a/b = c/d, show that: (a3c + ac3)/(b3d + bd3) = (a+c)4/(b+d)4
Solution
Let’s take a/b = c/d = k
So, a = bk and c = dk
Taking L.H.S,
Now, taking the R.H.S
Thus, L.H.S = R.H.S
Hence, Proved
8. What least number must be subtracted from each of the numbers 7, 17 and 47 so that the remainders are in continued proportion?
Solution
Let’s assume the number subtracted to be x.
So, we have
(7 – x): (17 – x):: (17 – x): (47 – x)
⇒ (7 – x)(47 – x) = (17 – x)2
⇒ 329 – 47x – 7x + x2 = 289 – 34x + x2
⇒ 329 – 289 = -34x + 54x
⇒ 20x = 40
⇒ x = 2
∴ the required number which must be subtracted is 2.
Exercise 7(C)
1. If a : b = c : d, prove that:
(i) 5a + 7b : 5a – 7b = 5c + 7d : 5c – 7d.
(ii) (9a + 13b) (9c – 13d) = (9c + 13d) (9a – 13b).
(iii) xa + yb : xc + yd = b : d.
Solution
(i) Given, a/b = c/d
(ii) Given, a/b = c/d
On cross-multiplication we have,
⇒ (9a + 13b)(9c – 13d) = (9c + 13d)(9a – 13b)
(iii) Given, a/b = c/d
Hence, Proved
2. If a : b = c : d, prove that:
(6a + 7b) (3c – 4d) = (6c + 7d) (3a – 4b).
Solution
Given, a/b = c/d
⇒ (6a + 7b)(3c – 4d) = (3a – 4b)(6c + 7d)
Hence, Proved
3. Given, a/b = c/d, prove that:
(3a – 5b)/(3a + 5b) = (3c – 5d)(3c + 5d)
Solution
4. If (5x+ 6y)/(5u + 6v) = (5x -6y)/(5u-6v);
Then prove that x: y = u: v
Solution
⇒ 10x/12y = 10u/12v
Thus, x/y = u/v ⇒ x: y = u: v
5. If (7a + 8b) (7c – 8d) = (7a – 8b) (7c + 8d);
Prove that a: b = c: d
Solution
The given can the rewritten as,
6. (i) If x = 6ab/ (a + b), find the value of:
(x+ 3a)/(x - 3a) + (x +3b)/(x - 3b)
Solution
Given, x = 6ab/ (a + b)
⇒ x/3a = 2b/ a + b
Now, applying componendo and dividendo we have
Again, x = 6ab/ (a + b)
⇒ x/3b = 2a/ a + b
Now, applying componendo and dividendo we have
From (1) and (2), we get
(ii) If a = 4√6/ (√2 + √3), find the value of:
(a + 2√2)/(a-2√2) + (a+2√3)/(a-2√3)
Solution
Given, a = 4√6/(√2 + √3)
a/2√2 = 2√3/(√2 + √3)
Now, applying componendo and dividendo we have
Again, a = 4√6/(√2 + √3)
a/2√3 = 2√2/(√2 + √3)
Now, applying componendo and dividendo we have
From (1) and (2), we have
7. If (a + b + c + d) (a – b – c + d) = (a + b – c – d) (a – b + c – d), prove that a: b = c: d.
Solution
Rewriting the given, we have
Now, applying componendo and dividendo
Applying componendo and dividendo again, we get
Hence, Proved
Exercise 7(D)
1. If a: b = 3: 5, find:
(10a + 3b): (5a + 2b)
Solution
Given, a/b = 3/5
(10a + 3b)/ (5a + 2b)
2. If 5x + 6y: 8x + 5y = 8: 9, find x: y.
Solution
Given, 
On cross multiplying, we get
45x + 54y = 64x + 40y
⇒ 14y = 19x
Thus, x/y = 14/19
3. If (3x – 4y): (2x – 3y) = (5x – 6y): (4x – 5y), find x: y.
Solution
Given, (3x – 4y): (2x – 3y) = (5x – 6y): (4x – 5y)
This can be rewritten as,
⇒ 5x – 7y = 9x – 11y
⇒ 4y = 4x
⇒ x/y = 1/1
Thus, x: y = 1: 1
4. Find the:
(i) duplicate ratio of 2√2: 3√5
(ii) triplicate ratio of 2a: 3b
(iii) sub-duplicate ratio of 9x2a4 : 25y6b2
(iv) sub-triplicate ratio of 216: 343
(v) reciprocal ratio of 3: 5
(vi) ratio compounded of the duplicate ratio of 5: 6, the reciprocal ratio of 25: 42 and the sub-duplicate ratio of 36: 49.
Solution
(i) Duplicate ratio of 2√2: 3√5 = (2√2)2: (3√5)2 = 8: 45
(ii) Triplicate ratio of 2a: 3b = (2a)3: (3b)3 = 8a3: 27b3
(iii) Sub-duplicate ratio of 9x2a4: 25y6b2 = √(9x2a4): √(25y6b2) = 3xa2: 5y3b
(iv) Sub-triplicate ratio of 216: 343 = (216)1/3: (343)1/3 = 6: 7
(v) Reciprocal ratio of 3: 5 = 5: 3
(vi) Duplicate ratio of 5: 6 = 25: 36
Reciprocal ratio of 25: 42 = 42: 25
Sub-duplicate ratio of 36: 49 = 6: 7
Required compound ratio =
5. Find the value of x, if:
(i) (2x + 3): (5x – 38) is the duplicate ratio of √5: √6.
(ii) (2x + 1): (3x + 13) is the sub-duplicate ratio of 9: 25.
(iii) (3x – 7): (4x + 3) is the sub-triplicate ratio of 8: 27.
Solution
(i) (2x + 3): (5x – 38) is the duplicate ratio of √5: √6
And, the duplicate ratio of √5: √6 = 5: 6
So, (2x + 3)/(5x – 38) = 5/6
⇒ 12x + 18 = 25x – 190
⇒ 25x – 12x = 190 + 18
⇒ 13x = 208
⇒ x = 208/13 = 16
(ii) (2x + 1): (3x + 13) is the sub-duplicate ratio of 9: 25
Then the sub-duplicate ratio of 9: 25 = 3: 5
⇒ (2x + 1)/(3x + 13) = 3/5
⇒ 10x + 5 = 9x + 39
⇒ x = 34
(iii) (3x – 7): (4x + 3) is the sub-triplicate ratio of 8: 27
And the sub-triplicate ratio of 8: 27 = 2: 3
(3x – 7)/(4x + 3) = 2/3
⇒ 9x – 8x = 6 + 21
⇒ x = 27
6. What quantity must be added to each term of the ratio x: y so that it may become equal to c: d?
Solution
Let’s assume the required quantity which has to be added be p.
So, we have
⇒ dx + pd = cy + cp
⇒ pd – cp = cy – dx
⇒ p(d – c) = cy – dx
⇒ p = cy –dx/ (d – c)
7. A woman reduces her weight in the ratio 7: 5. What does her weight become if originally it was 84 kg?
Solution
Let’s consider the woman’s reduced weight as x.
Given, the original weight = 84 kg
So, we have
84: x = 7: 5
⇒ 84/x = 7/5
⇒ 84 x 5 = 7x
⇒ x = (84 x 5)/ 7
⇒ x = 60
∴ the reduced weight of the woman is 60 kg.
8. If 15(2x2 – y2) = 7xy, find x: y; if x and y both are positive.
Solution
15(2x2 – y2) = 7xy
Let’s take the substitution as x/y = a
2a – 1/a = 7/15
⇒ (2a2 – 1)/ a = 7/15
⇒ 30a2 – 15 = 7a
⇒ 30a2 – 7a – 15 = 0
⇒ 30a2 – 25a + 18a – 15 = 0
⇒ 5a(6a – 5) + 3(6a – 5) = 0
⇒ (6a – 5) (5a + 3) = 0
So, 6a – 5 = 0 or 5a + 3 = 0
a = 5/6 or a = -3/5
As, a cannot be taken negative (ratio)
Thus, a = 5/6
x/y = 5/6
Hence, x: y = 5: 6
9. Find the:
(i) fourth proportional to 2xy, x2 and y2.
(ii) third proportional to a2 – b2 and a + b.
(iii) mean proportional to (x – y) and (x3 – x2y).
Solution
(i) Let the fourth proportional to 2xy, x2 and y2 be n.
2xy: x2 = y2: n
⇒ 2xy × n = x2 × y2
n = 
(ii) Let the third proportional to a2 – b2 and a + b be n.
a2 – b2, a + b and n are in continued proportion.
⇒ a2 – b2: a + b = a + b: n
n =
(iii) Let the mean proportional to (x – y) and (x3 – x2y) be n.
(x – y), n, (x3 – x2y) are in continued proportion
(x – y): n = n: (x3 – x2y)
⇒ n2 = (x -y) (x3 – x2y)
⇒ n2 = (x -y) x2(x – y)
⇒ n2 = x2 (x – y)2
⇒ n = x(x – y)
10. Find two numbers such that the mean proportional between them is 14 and third proportional to them is 112.
Solution
Let’s assume the required numbers be a and b.
Given, 14 is the mean proportional between a and b.
a: 14 = 14: b
⇒ ab = 196
⇒ a = 196/b …. (1)
Also, given, third proportional to a and b is 112.
a: b = b: 112
⇒ b2 = 112a …. (2)
Using (1), we have:
b2 = 112 × (196/b)
⇒ b3 = 143 x 23
⇒ b = 28
From (1),
a = 196/ 28 = 7
∴ the two numbers are 7 and 28.
11. If x and y be unequal and x: y is the duplicate ratio of x + z and y + z, prove that z is mean proportional between x and y.
Solution
Given,
⇒ x(y2 + z2 + 2yz) = y(x2 + z2 + 2xz)
⇒ xy2 + xz2 + 2yzx = x2y + z2y + 2xzy
⇒ xy2 + xz2 = x2y + z2y
⇒ xy(y – x) = z2(y – x)
⇒ xy = z2
∴ z is mean proportional between x and y.
12. If x = 2ab/a+b , find the value of (x+a)/(x-a) + (x+b)/(x-b) .
Solution
x = 2ab/(a + b)
⇒ x/a = 2b/(a + b)
Applying componendo and dividendo,
Also, x = 2ab/ (a + b)
x/b = 2a/ (a + b)
Applying componendo and dividendo, we have
Now, comparing (1) and (2) we have
13. If (4a + 9b)/(4a – 9b) = (4c + 9d)/(4c – 9d), prove that:
a: b = c: d.
Solution
Given,
Applying componendo and dividendo, we get
⇒ 8a/18b = 8c/18d
⇒a/b = c/d
Hence, Proved