**1. Solve the following pair of linear equations by the elimination method and the substitution method: **

**(i) x + y = 5 and 2x – 3y = 4 **

**(ii) 3x + 4y = 10 and 2x – 2y = 2 **

**(iii) 3x – 5y – 4 = 0 and 9x = 2y + 7 **

**(iv) **^{x}/_{2} + ^{2y}/_{3 } = -1 and x – ^{y}/_{3 }= 3

Solution:

(i) By elimination method

X + y = 5 …………….(1)

2x – 3y = 4 ………….(2)

Multiplying equation (1) by 2, we get

2x + 2y = 10 …………….(3)

Subtracting equation (2) from equation (3),

5y = 6

then, y = ^{6}/_{5} …………….(4)

Substituting the value in equation (1),

x + ^{6}/_{5} = 5

x = 5 – ^{6}/_{5} = ^{19}/_{5}

Therefore, x = ^{19}/_{5 }and y = ^{6}/_{5}

**By substitution method:**

X + y = 5 …………….(1)

2x – 3y = 4 ………….(2)

From equation(1)

x = 5 – y ……..(*)

Putting this value in equation (2)

2(5-y) – 3y = 4

10 – 2y – 3y – 4 = 0

-5y = -6

y = ^{6}/_{5}

Substituting the value in equation (*) , we get

x = 5 – ^{6}/_{5} = ^{19}/_{5}

Therefore, x = ^{19}/_{5 }and y = ^{6}/_{5}

(ii) **By elimination method**

3x + 4y = 10 ……………(1)

2x – 2y = 2 ……………..(2)

Multiplying equation (2) by 2,

4x – 4y = 4 ———–(3)

Add equation (1) and (3),

7x = 14

x = 2 —————(4)

Substituting the value of x in equation (1)

3(2) + 4y = 10

6 + 4y = 10

4y = 4

y =1

Thus, x = 2 and y = 1

**By substitution method:**

3x + 4y = 10 ……………(1)

2x – 2y = 2 ……………..(2)

From equation (2), we get,

x – y = 1

x = 1 + y —————(*)

Substitute the value of x in equation (1)

3(1 + y) + 4y = 10

3 + 3y + 4y = 10

7y = 7

y = 1

Substitute the value of y in (*)

x = 1+1 = 2

Thus, x = 2 and y = 1

(iii) **By elimination method**

3x – 5y – 4 = 0 ……………(1)

9x = 2y + 7 —————(2)

Equation(2) can be written as

9x – 2y – 7 = 0 ——–(3)

Multyply equation (1) by 3, then,

9x – 15y – 12 = 0 ———–(4)

Subtracting equation (4) from equation (3),

9x – 15y = 12

9x – 2y = 7

-13y = 5

y = – ^{5}/_{13} ———–(4)

Substitute in equation (1)

3x – 5(-^{5}/_{13} ) – 4 = 0

3x = ^{27}/_{13}

x = ^{9}/_{13}

Therefore, x = ^{9}/_{13} , y = –^{5}/_{13}.

__By substitution method:__

3x – 5y – 4 = 0 ……………(1)

9x = 2y + 7 —————(2)

From equation (1), we get

x = ^{(5y+4)}/_{3} ————–(*)

Putting value of x in equation (2), we get

9(^{(5y+4)}/_{3} )= 2y + 7

13y = -5

y = ^{-5}/_{13}

Substituting the value of y in equation (*)

x = (^{(5y+4)}/_{3} ) = [5(-^{5}/_{13}) + 4]/_{3}

= ^{9}/_{13}

Therefore, x = ^{9}/_{13 }and y = ^{-5}/_{13}

(iv)__By elimination method:__

^{x}/_{2} + ^{2y}/_{3} = -1

i.e., 3x + 4y = -6 ———–(1)

x – ^{y}/_{3} = 3

i.e., 3x – y = 9 ————(2)

Subtracting equation (2) in equation (1), we get

5y = -15

y = -3 ———–(3)

Substituting value of y In equation (1)

3x – 12 = -6

3x = 6

x = 2

Hence x = 2 and y = -3

**By substitution method:**

From equation (2) we get

x = ^{(y+9)}/_{3 }—————-(*)

Substitute the value of x in (1)

3 (^{(y+9)}/_{3}) + 4y = -6

5y = -15

y = -3

Substutiting the value of y in equation (*)

x = ^{-3+9}/_{3} = 2

Thus, x = 2 and y = -3

**Form the pair of linear equations in the following problems, and find their solutions (if they exist) by the elimination method:**

**(i) ****If we add 1 to the numerator and subtract 1 from the denominator, a fraction ****reduces to 1. It becomes ½ if we only add 1 to the denominator. What is the fraction? **

**(ii) ****Five years ago, Nuri was thrice as old as Sonu. Ten years later, Nuri will be twice as old as Sonu. How old are Nuri and Sonu? **

**(iii) ****The sum of the digits of a two-digit number is 9. Also, nine times this number is twice the number obtained by reversing the order of the digits. Find the number. **

**(iv) ****Meena went to bank to withdraw Rs 2000. She asked the cashier to give her Rs 50 and Rs 100 notes only. Meena got 25 notes in all. Find how many notes of Rs 50 and Rs 100 she received. **

**(v) ****A lending library has a fixed charge for the first three days and an additional charge for each day thereafter. Saritha paid Rs 27 for a book kept for seven days, while Susy paid Rs 21 for the book she kept for five days. Find the fixed charge and the charge for each extra day **

Solution:

**(i) **Let the fraction be x/y.

From data:

^{(x+1)}/_{(y-1)} = 1

i.e., x – y = -2 ——-(1)

^{x}/_{(y+1)} = ^{½} i.e., 2x – y = 1 ——–(2)

Subtracting equation (1) from equation (2),

*x *= 3 ———–(3)

Substituting this value in equation (1), we get

3 – y = -2

-y = -5

y = 5

Hence, the fraction is 3/5.

**(ii)**Let present age of Nuri = *x *and present age of Sonu = *y *

From given data:

(x – 5) = 3(y-5)

x – 3y = -10———(1)

(x + 10) = 2(y + 10)

x – 2y = 10 —————–(2)

Subtracting equation (1) from equation (2), we obtain *y *= 20 ——– (3)

Substituting it in equation (1), we get

x – 60 = -10

x = 50

Hence, age of Nuri = 50 years

And, age of Sonu = 20 years

**(iii)**Let the unit digit and tens digits of the number be *x *and *y *respectively.

Then, number = 10*y *+ *x *

Number after reversing the digits = 10*x *+ *y *

From the given data,

*x *+ *y *= 9 …………………(1)

9(10*y *+ *x*) = 2(10*x *+ *y*)

88*y − *11*x *= 0

− *x *+ 8*y *=0 ………………….(2)

Adding equation (1) and (2), we obtain

9*y *= 9

*y *= 1 ————(3)

Substituting the value in equation (1),

*x *= 8

Hence, the number is

10*y *+ *x *= 10 ( 1) + 8 = 18

**(iv)**Let the number of Rs 50 notes and Rs 100 notes be *x *and *y *respectively.

From the given data,

x + y = 25 ——(1)

50x + 100y = 2000 ———–(2)

Multiplying equation (1) by 50,

50x + 50y = 1250 ———-(3)

Subtracting equation (3) from equation (2),

50 y = 750

y = 15

Substituting in equation (1),

we have *x *= 10

Hence, Meena has 10 notes of Rs 50 and 15 notes of Rs 100.

**(v)**Let the fixed charge for first three days and each day charge thereafter be Rs *x *and Rs *y *respectively.

From the data given

x + 4y = 27 ——–(1)

x + 2y = 21 ——-(2)

Subtracting equation (2) from equation (1),

2y = 6

y =3 ———–(3)

Substituting in equation (1),

x + 12 = 27

x = 15

Hence,

fixed charge = Rs 15

And

Charge per day = Rs 3