# NCERT Class 10 solution – Pairs of Linear Equations in Two Variables

## Linear Equations

**Linear Equations Exercise 3.1**

1. Aftab tells his daughter, “Seven years ago, I was seven times as old as you were then. Also, three years from now, I shall be three times as old as you will be.” (Isn’t this interesting?) Represent this situation algebraically and graphically.

**Answer**

Let present age of Aftab be *x*

And, present age of daughter is represented by *y*

Then Seven years ago,

Age of Aftab = *x *-7

Age of daughter = *y*-7

According to the question,

(*x *– 7) = 7 (*y *– 7 )

*x *– 7 = 7 *y *– 49

*x*– 7*y * = – 49 + 7

*x *– 7*y* = – 42 …**(i)**

*x* = 7*y* – 42

Putting *y* = 5, 6 and 7, we get

*x* = 7 × 5 – 42 = 35 – 42 = – 7

*x* = 7 × 6 – 42 = 42 – 42 = 0

*x* = 7 × 7 – 42 = 49 – 42 = 7

x | -7 | 0 | 7 |

y | 5 | 6 | 7 |

Three years from now ,

Age of Aftab = *x *+3

Age of daughter = *y *+3

According to the question,

(*x *+ 3) = 3 (*y *+ 3)

*x *+ 3 = 3*y *+ 9

*x *-3*y *= 9-3

*x *-3*y * = 6 …**(ii)**

*x * = 3*y *+ 6

Putting, *y *= -2,-1 and 0, we get

*x * = 3 × – 2 + 6 = -6 + 6 =0

*x * = 3 × – 1 + 6 = -3 + 6 = 3

*x * = 3 × 0 + 6 = 0 + 6 = 6

x | 0 | 3 | 6 |

y | -2 | -1 | 0 |

Algebraic representation

From equation **(i)** and **(ii)**

*x *– 7*y * = – 42 …**(i)**

*x *– 3*y * = 6 …**(ii)**

Graphical representation

2. The coach of a cricket team buys 3 bats and 6 balls for Rs 3900. Later, she buys another bat and 3 more balls of the same kind for Rs 1300. Represent this situation algebraically and geometrically.

**Answer**

Let cost of one bat = Rs *x*

Cost of one ball = Rs *y*

3 bats and 6 balls for Rs 3900 So that

3*x *+ 6*y* = 3900 … **(i)**

Dividing equation by 3, we get

*x *+ 2*y* = 1300

Subtracting 2*y* both side we get

*x* = 1300 – 2*y *

Putting *y* = -1300, 0 and 1300 we get

*x* = 1300 – 2 (-1300) = 1300 + 2600 = 3900

*x *= 1300 -2(0) = 1300 – 0 = 1300

*x* = 1300 – 2(1300) = 1300 – 2600 = – 1300

x | 3900 | 1300 | -1300 |

y | -1300 | 0 | 1300 |

Given that she buys another bat and 2 more balls of the same kind for Rs 1300

So, we get

*x* + 2*y *= 1300 … **(ii)**

Subtracting 2y both side we get

*x * = 1300 – 2*y*

Putting *y* = – 1300, 0 and 1300 we get

*x* = 1300 – 2 (-1300) = 1300 + 2600 = 3900

*x * = 1300 – 2 (0) = 1300 – 0 = 1300

*x * = 1300 – 2(1300) = 1300 – 2600 = -1300

x | 3900 | 1300 | -1300 |

y | -1300 | 0 | 1300 |

Algebraic representation

3*x *+ 6*y* = 3900 … **(i)**

*x *+ 2*y * = 1300 … **(ii)**

Graphical representation,

3. The cost of 2 kg of apples and 1kg of grapes on a day was found to be Rs 160. After a month, the cost of 4 kg of apples and 2 kg of grapes is Rs 300. Represent the situation algebraically and geometrically.

**Answer**

Let cost each kg of apples = Rs *x*

Cost of each kg of grapes = Rs *y*

Given that the cost of 2 kg of apples and 1kg of grapes on a day was found to be Rs 160

So that

2 *x *+ *y * = 160 … **(i)**

2*x* = 160 – *y*

*x* = (160 – *y*)/2

Let *y* = 0 , 80 and 160, we get

*x* = (160 – ( 0 )/2 = 80

*x* = (160- 80 )/2 = 40

*x* = (160 – 2 × 80)/2 = 0

x | 80 | 40 | 0 |

y | 0 | 80 | 160 |

Given that the cost of 4 kg of apples and 2 kg of grapes is Rs 300

So we get

4*x* + 2*y *= 300 … **(ii)**

Dividing by 2 we get

2*x* + *y* = 150

Subtracting 2*x* both side, we get

*y * = 150 – 2*x*

Putting *x* = 0 , 50 , 100 we get

*y * = 150 – 2 × 0 = 150

*y * = 150 – 2 × 50 = 50

*y * = 150 – 2 × (100) = -50

x | 0 | 50 | 100 |

y | 150 | 50 | -50 |

Algebraic representation,

2*x *+ *y* = 160 … **(i)**

4*x* + 2*y* = 300 … **(ii)**

** ** Graphical representation,

Page No: 49

**Linear Equation Exercise 3.2**

**1. Form the pair of linear equations in the following problems, and find their solutions graphically.**

**Answer**

Let number of boys = *x*

Number of girls = *y*

Given that total number of student is 10 so that

*x *+ *y * = 10

Subtract y both side we get

*x * = 10 – *y*

Putting *y *= 0 , 5, 10 we get

*x * = 10 – 0 = 10

*x * = 10 – 5 = 5

*x * = 10 – 10 = 0

x | 10 | 5 |

y | 0 | 5 |

Given that If the number of girls is 4 more than the number of boys

So that

*y * = *x *+ 4

Putting *x* = -4, 0, 4, and we get

*y *= – 4 + 4 = 0

*y *= 0 + 4 = 4

*y *= 4 + 4 = 8

x | -4 | 0 | 4 |

y | 0 | 4 | 8 |

Graphical representation

Therefore, number of boys = 3 and number of girls = 7.

(ii) 5 pencils and 7 pens together cost Rs 50, whereas 7 pencils and 5 pens together cost Rs 46. Find the cost of one pencil and that of one pen.

**Answer**

Let cost of pencil = Rs *x*

Cost of pens = Rs *y*

5 pencils and 7 pens together cost Rs 50,

So we get

5*x* + 7*y* = 50

Subtracting 7*y* both sides we get

5*x* = 50 – 7*y*

Dividing by 5 we get

*x* = 10 – 7 y /5

Putting value of *y* = 5 , 10 and 15 we get

*x* = 10 – 7 × 5/5 = 10 – 7 = 3

*x* = 10 – 7 × 10/5 = 10 – 14 = – 4

*x* = 10 – 7 × 15/5 = 10 – 21 = – 11

x | 3 | -4 | -11 |

y | 5 | 10 | 15 |

Given that 7 pencils and 5 pens together cost Rs 46

7*x* + 5*y* = 46

Subtracting 7*x* both side we get

5*y* = 46 – 7*x*

Dividing by 5 we get

*y* = 46/5 – 7*x*/5

y = 9.2 – 1.4*x*

Putting *x* = 0 , 2 and 4 we get

*y* = 9.2 – 1.4 × 0 = 9.2 – 0 = 9.2

*y* = 9.2 – 1.4 (2) = 9.2 – 2.8 = 6.4

*y* = 9.2 – 1.4 (4) = 9.2 – 5.6 = 3.6

x | 0 | 2 | 4 |

y | 9.2 | 6.4 | 3.6 |

Graphical representation

Therefore, cost of one pencil = Rs 3 and cost of one pen = Rs 5.

2. On comparing the ratios *a*_{1}/*a*_{2} , *b*_{1}/*b*_{2} and *c*_{1}/*c*_{2}, find out whether the lines representing the following pairs of linear equations intersect at a point, are parallel or coincident.

**Answer**

(i) 5*x* – 4*y* + 8 = 0

7*x* + 6*y* – 9 = 0

Comparing these equation with

*a*_{1}*x* + *b*_{1}*y* + *c*_{1} = 0

*a*_{2}*x* + *b*_{2}*y* + *c*_{2}= 0

We get

*a*_{1} = 5, *b*_{1} = -4, and *c*_{1} = 8

*a*_{2} =7, *b*_{2} = 6 and c_{2} = -9

*a*_{1}/a_{2} = 5/7,

b_{1}/*b*_{2} = -4/6 and

*c*_{1}/*c*_{2} = 8/-9

Hence, *a*_{1}/*a*_{2} ≠ b_{1}/b_{2}

Therefore, both are intersecting lines at one point.

(ii) 9*x* + 3*y* + 12 = 0

18*x* + 6*y* + 24 = 0

Comparing these equations with

*a*

_{1}

*x*+

*b*

_{1}

*y*+

*c*

_{1}= 0

*a*_{2}*x* + *b*_{2}*y* + *c*_{2}= 0

We get

*a*_{1} = 9, *b*_{1} = 3, and *c*_{1} = 12

*a*_{2} = 18, *b*_{2} = 6 and *c*_{2} = 24

*a*_{1}/*a*_{2} = 9/18 = 1/2

*b*_{1}/*b*_{2} = 3/6 = 1/2 and

*c*_{1}/*c*_{2} = 12/24 = 1/2

Hence, *a*_{1}/*a*_{2} = *b*_{1}/*b*_{2 }=_{ }*c*_{1}/*c*_{2}

_{ } Therefore, both lines are coincident

(iii) 6*x* – 3*y* + 10 = 0

2*x* – *y* + 9 = 0

Comparing these equations with

*a*

_{1}

*x*+

*b*

_{1}

*y*+

*c*

_{1}= 0

*a*_{2}*x* + *b*_{2}*y* + *c*_{2}= 0

We get

*a*_{1} = 6, *b*_{1} = -3, and *c*_{1} = 10

*a*_{2} = 2, *b*_{2} = -1 and c_{2} = 9

*a*_{1}/*a*_{2} = 6/2 = 3/1

*b*_{1}/*b*_{2} = -3/-1 = 3/1 and

*c*_{1}/*c*_{2} = 12/24 = 1/2

Hence, *a*_{1}/a_{2} = *b*_{1}/*b*_{2 }≠_{ }*c*_{1}/*c*_{2}

_{ } Therefore, both lines are parallel

_{ }** 3. On comparing the ratios a_{1}/a_{2} , b_{1}/b_{2} and c_{1}/c_{2} find out whether the following pair of linear equations are consistent, or inconsistent.**

(i) 3

*x*+ 2

*y*= 5 ; 2

*x*– 3

*y*= 7

(ii) 2

*x*– 3

*y*= 8 ; 4

*x*– 6

*y*= 9

(iii) 3/2

*x*+ 5/3

*y*= 7 ; 9

*x*– 10

*y*= 14

(iv) 5

*x*– 3

*y*= 11 ; – 10

*x*+ 6

*y*= –22

(v) 4/3

*x*+ 2

*y*=8 ; 2

*x*+ 3

*y*= 12

**Answer**

(i) 3*x* + 2*y* = 5 ; 2*x* – 3*y* = 7

*a*_{1}/*a*_{2} = 3/2

*b*_{1}/*b*_{2} = -2/3 and

*c*_{1}/*c*_{2} = 5/7

Hence, *a*_{1}/*a*_{2} ≠ b_{1}/b_{2}

These linear equations are intersecting each other at one point and thus have only one possible solution. Hence, the pair of linear equations is consistent.

(ii) 2*x* – 3*y* = 8 ; 4*x* – 6*y* = 9

*a*_{1}/*a*_{2} = 2/4 = 1/2

*b*_{1}/*b*_{2} = -3/-6 = 1/2 and

*c*_{1}/*c*_{2} = 8/9

Hence, *a*_{1}/a_{2} = *b*_{1}/*b*_{2 }≠_{ }*c*_{1}/*c*_{2}

_{ } Therefore, these linear equations are parallel to each other and thus have no possible solution. Hence, the pair of linear equations is inconsistent.

_{ } (iii) 3/2*x* + 5/3*y* = 7 ; 9*x *– 10*y* = 14

*a*_{1}/*a*_{2} = 3/2/9 = 1/6

*b*_{1}/*b*_{2} = 5/3/-10 = -1/6 and

*c*_{1}/*c*_{2} = 7/14 = 1/2

Hence, *a*_{1}/a_{2} ≠ *b*_{1}/*b*_{2}

_{ } Therefore, these linear equations are intersecting each other at one point and thus have only one possible solution. Hence, the pair of linear equations is consistent.

(iv) 5*x* – 3*y* = 11 ; – 10*x* + 6*y* = –22

*a*_{1}/*a*_{2} = 5/-10 = -1/2

*b*_{1}/*b*_{2} = -3/6 = -1/2 and

*c*_{1}/*c*_{2} = 11/-22 = -1/2

Hence, *a*_{1}/a_{2} = *b*_{1}/*b*_{2 =}_{ }*c*_{1}/*c*_{2}

_{ } Therefore, these linear equations are coincident pair of lines and thus have infinite number of possible solutions. Hence, the pair of linear equations is consistent.

(v) 4/3*x* + 2*y* =8 ; 2*x* + 3*y* = 12

*a*_{1}/*a*_{2} = 4/3/2 = 2/3

*b*_{1}/*b*_{2} = /3 and

*c*_{1}/*c*_{2} = 8/12 = 2/3

Hence, *a*_{1}/a_{2} = *b*_{1}/*b*_{2 =}_{ }*c*_{1}/*c*_{2}

_{ } Therefore, these linear equations are coincident pair of lines and thus have infinite number of possible solutions. Hence, the pair of linear equations is consistent._{ }

**4. Which of the following pairs of linear equations are consistent/inconsistent? If consistent, obtain the solution graphically:**

(i)* x* + *y* = 5, 2*x* + 2*y* = 10

*x*–

*y*= 8, 3

*x*– 3

*y*= 16

(iii) 2*x* + *y* – 6 = 0, 4*x* – 2*y* – 4 = 0

*x*– 2

*y*– 2 = 0, 4

*x*– 4

*y*– 5 = 0

**Answer**

(i)* x* + *y* = 5; 2*x* + 2*y* = 10

*a*_{1}/*a*_{2} = 1/2

*b*_{1}/*b*_{2} = 1/2 and

*c*_{1}/*c*_{2} = 5/10 = 1/2

Hence, *a*_{1}/a_{2} = *b*_{1}/*b*_{2 =}_{ }*c*_{1}/*c*_{2}

Therefore, these linear equations are coincident pair of lines and thus have infinite number of possible solutions. Hence, the pair of linear equations is consistent.

*x* + *y* = 5

*x*= 5 –

*y*

x | 4 | 3 | 2 |

y | 1 | 2 | 3 |

And, 2*x* + 2*y* = 10

*x* = 10-2y/2

x | 4 | 3 | 2 |

y | 1 | 2 | 3 |

Graphical representation

From the figure, it can be observed that these lines are overlapping each other. Therefore, infinite solutions are possible for the given pair of equations.

*x*–

*y*= 8, 3

*x*– 3

*y*= 16

*a*

_{1}/

*a*

_{2}= 1/3

*b*

_{1}/

*b*

_{2}= -1/-3 = 1/3 and

*c*

_{1}/

*c*

_{2}= 8/16 = 1/2

Hence,

*a*

_{1}/a

_{2}=

*b*

_{1}/

*b*

_{2 }≠

_{ }

*c*

_{1}/

*c*

_{2}

Therefore, these linear equations are parallel to each other and thus have no possible solution. Hence, the pair of linear equations is inconsistent.

(iii) 2*x* + *y* – 6 = 0, 4*x* – 2*y* – 4 = 0

*a*_{1}/*a*_{2} = 2/4 = 1/2

*b*_{1}/*b*_{2} = -1/2 and

*c*_{1}/*c*_{2} = -6/-4 = 3/2

Hence, *a*_{1}/*a*_{2} ≠ b_{1}/b_{2}

_{ } Therefore, these linear equations are intersecting each other at one point and thus have only one possible solution. Hence, the pair of linear equations is consistent.

2*x* + *y* – 6 = 0

*y* = 6 – 2*x*

x | 0 | 1 | 2 |

y | 6 | 4 | 2 |

And, 4*x* – 2*y* -4 = 0

*y* = 4*x* – 4/2

x | 1 | 2 | 3 |

y | 0 | 2 | 4 |

Graphical representation

From the figure, it can be observed that these lines are intersecting each other at the only one point i.e., (2,2) which is the solution for the given pair of equations.

(iv) 2*x* – 2*y* – 2 = 0, 4*x* – 4*y* – 5 = 0

*a*_{1}/*a*_{2} = 2/4 = 1/2

*b*_{1}/*b*_{2} = -2/-4 = 1/2 and

*c*_{1}/*c*_{2} = 2/5

Hence, *a*_{1}/a_{2} = *b*_{1}/*b*_{2 }≠_{ }*c*_{1}/*c*_{2}

_{ } Therefore, these linear equations are parallel to each other and thus, have no possible solution. Hence, the pair of linear equations is inconsistent.

5. Half the perimeter of a rectangular garden, whose length is 4 m more than its width, is 36 m. Find the dimensions of the garden.

**Answer**

Let length of rectangle = *x* m

Width of the rectangle = *y *m

According to the question,

*y* – *x* = 4 … **(i)**

*y* + *x* = 36 … **(ii)**

*y* – *x* = 4

*y* = *x* + 4

x | 0 | 8 | 12 |

y | 4 | 12 | 16 |

*y* +* x* = 36

x | 0 | 36 | 16 |

y | 36 | 0 | 20 |

Graphical representation

From the figure, it can be observed that these lines are intersecting each other at only point i.e., (16, 20). Therefore, the length and width of the given garden is 20 m and 16 m respectively.

6. Given the linear equation 2*x* + 3*y* – 8 = 0, write another linear equations in two variables such that the geometrical representation of the pair so formed is:

(i) intersecting lines

(iii) coincident lines

**Answer**

(i) Intersecting lines:

For this condition,

*a*_{1}/*a*_{2} ≠ b_{1}/b_{2}

The second line such that it is intersecting the given line is

2*x* + 4*y* – 6 = 0 as

*a*_{1}/*a*_{2} = 2/2 = 1

*b*_{1}/*b*_{2} = 3/4 and

*a*_{1}/*a*_{2} ≠ b_{1}/b_{2}

_{ } (ii) Parallel lines

*a*_{1}/a_{2} = *b*_{1}/*b*_{2 }≠_{ }*c*_{1}/*c*_{2}

Hence, the second line can be

4*x* + 6*y* – 8 = 0 as

*a*_{1}/*a*_{2} = 2/4 = 1/2

*b*_{1}/*b*_{2} = 3/6 = 1/2 and

*c*_{1}/*c*_{2} = -8/-8 = 1

and *a*_{1}/a_{2} = *b*_{1}/*b*_{2 }≠_{ }*c*_{1}/*c*_{2}

_{ } (iii) Coincident lines

For coincident lines,

*a*_{1}/a_{2} = *b*_{1}/*b*_{2 =}_{ }*c*_{1}/*c*_{2}

Hence, the second line can be

6*x* + 9*y* – 24 = 0 as

*a*_{1}/*a*_{2} = 2/6 = 1/3

*b*_{1}/*b*_{2} = 3/9 = 1/3 and

*c*_{1}/*c*_{2} = -8/-24 = 1/3

and *a*_{1}/a_{2} = *b*_{1}/*b*_{2 =}_{ }*c*_{1}/*c*_{2}

_{ } 7. Draw the graphs of the equations *x* – y + 1 = 0 and 3*x* + 2*y* – 12 = 0. Determine the coordinates of the vertices of the triangle formed by these lines and the *x*-axis, and shade the triangular region.

**Answer**

*x* – *y* + 1 = 0

*x* = *y* – 1

x | 0 | 1 | 2 |

y | 1 | 2 | 3 |

3*x* + 2*y* – 12 = 0

*x* = 12 – 2*y*/3

x | 4 | 2 | 0 |

y | 0 | 3 | 6 |

Graphical representation

From the figure, it can be observed that these lines are intersecting each other at point (2, 3) and *x*-axis at ( – 1, 0) and (4, 0). Therefore, the vertices of the triangle are (2, 3), ( – 1, 0), and (4, 0).

Page No: 53

**Pair of Linear Equation Exercise 3.3**

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

(i) *x *+ *y *= 14 ; *x *– *y *= 4

*s*–

*t*= 3 ;

*s*/3 +

*t*/2 = 6

(iii) 3

*x*–

*y*= 3 ; 9

*x*– 3

*y*= 9

*x*+ 0.3

*y*= 1.3 ; 0.4

*x*+ 0.5

*y*= 2.3

(v) √2

*x*+ √3

*y*= 0 ; √3

*x*– √8

*y*= 0

*x*– 5/3

*y*= -2 ;

*x*/3 +

*y*/2 = 13/6

**Answer**

(i) *x* + *y* = 14 … **(i)**

*x*–

*y*= 4 …

**(ii)**

From equation

**(i)**, we get

*x* = 14 – *y* … **(iii)**

Putting this value in equation **(ii)**, we get

*y*) – y = 4

*y*= 4

*y*

*y*= 5 …

**(iv)**

**(iii)**, we get

*x*= 9

*x*= 9 and

*y*= 5

(ii) *s *– *t *= 3 … **(i)**

*s*/3 + *t*/2 = 6 … **(ii)**

From equation **(i)**, we get*s *= *t* + 3

Putting this value in equation **(ii)**, we get

*t*+3/3 + *t*/2 = 6

2*t* + 6 + 3t = 36

5*t* = 30

*t* = 30/5 … **(iv)**

Putting in equation **(iii)**, we obtain

*s* = 9

∴ *s* = 9, *t* = 6

(iii) 3*x* – *y *= 3 … **(i)**

9*x* – 3*y* = 9 … **(ii)**

From equation **(i)**, we get

*y* = 3*x* – 3 … **(iii)**

Putting this value in equation **(ii)**, we get

9*x* – 3(3*x* – 3) = 9

9*x* – 9*x* + 9 = 9

9 = 9

This is always true.

Hence, the given pair of equations has infinite possible solutions and the relation between these variables can be given by

*y* = 3*x* – 3

Therefore, one of its possible solutions is *x* = 1, *y* = 0.

(iv) 0.2*x* + 0.3*y* = 1.3 … **(i) **

0.4*x* + 0.5*y* = 2.3 … **(ii)**

0.2*x* + 0.3y = 1.3

Solving equation **(i)**, we get

0.2*x* = 1.3 – 0.3*y*

Dividing by 0.2, we get

*x* = 1.3/0.2 – 0.3/0.2

*x* = 6.5 – 1.5 *y* …**(iii)**

Putting the value in equation **(ii)**, we get

0.4*x* + 0.5*y* = 2.3

(6.5 – 1.5*y*) × 0.4*x* + 0.5*y* = 2.3

2.6 – 0.6*y* + 0.5*y* = 2.3

-0.1*y* = 2.3 – 2.6

* y * = -0.3/-0.1

* y* = 3

Putting this value in equation **(iii)** we get

* x* = 6.5 – 1.5 *y*

* x* = 6.5 – 1.5(3)

* x* = 6.5 – 4.5

* x* = 2

∴ *x *= 2 and *y* = 3

*x*– 5/3

*y*= -2 …

**(i)**

*x*/3 +

*y*/2 = 13/6 …

**(ii)**

**(i)**, we get

*x*– 10

*y*= -12

*x*= -12 + 10

*y*/9 …

**(iii)**

**(ii)**, we get

2. Solve 2*x* + 3*y* = 11 and 2*x* – 4*y* = – 24 and hence find the value of ‘*m*‘ for which *y* =*mx* + 3.

**Answer**

2*x* + 3*y *= 11 … **(i)**

Subtracting 3*y* both side we get

2*x* = 11 – 3*y* … **(ii)**

Putting this value in equation second we get

2*x* – 4*y* = – 24 … **(iii)**

11- 3*y* – 4*y* = – 24

7*y* = – 24 – 11

-7*y* = – 35

*y* = – 35/-7

*y* = 5

Putting this value in equation **(iii)** we get

2*x* = 11 – 3 × 5

2*x* = 11- 15

2*x* = – 4

Dividing by 2 we get

*x* = – 2

Putting the value of *x* and *y*

* y* = *mx* + 3.

5 = -2*m* +3

2*m* = 3 – 5

*m* = -2/2

*m* = -1

**3. Form the pair of linear equations for the following problems and find their solution by substitution method**

(i) The difference between two numbers is 26 and one number is three times the other. Find them.

**Answer**

Let larger number = *x*

Smaller number = y

The difference between two numbers is 26

*x* – *y* = 26

*x* = 26 + *y*

Given that one number is three times the other

So *x* = 3*y*

Putting the value of *x* we get

26*y* = 3*y*

-2*y* = – 2 6

*y* = 13

So value of *x* = 3*y*

Putting value of *y*, we get

*x* = 3 × 13 = 39

Hence the numbers are 13 and 39.

(ii) The larger of two supplementary angles exceeds the smaller by 18 degrees. Find them.

**Answer**

Let first angle = *x*

And second number = *y*

As both angles are supplementary so that sum will 180

*x* + *y* = 180

x = 180 – *y* … **(i)**

The difference is 18 degree so that

*x* – *y* = 18

Putting the value of *x *we get

180 – *y* – *y* = 18

– 2*y* = -162

*y* = -162/-2

*y* = 81

Putting the value back in equation **(i)**, we get

*x* = 180 – 81 = 99Hence, the angles are 99º and 81º.

(iii) The coach of a cricket team buys 7 bats and 6 balls for Rs 3800. Later, she buys 3 bats and 5 balls for Rs 1750. Find the cost of each bat and each ball.

**Answer**

Let cost of each bat = Rs *x*

Cost of each ball = Rs *y*

Given that coach of a cricket team buys 7 bats and 6 balls for Rs 3800.

7*x* + 6*y* = 3800

6*y* = 3800 – 7*x*

Dividing by 6, we get

*y* = (3800 – 7*x*)/6 … **(i)**

3

*x*+ 5

*y*= 1750

Putting the value of

*y*

3

*x*+ 5 ((3800 – 7

*x*)/6) = 1750

Multiplying by 6, we get

18

*x*+ 19000 – 35

*x*= 10500

-17

*x*=10500 – 19000

-17

*x*= -8500

*x*= – 8500/– 17

*x*= 500

Putting this value in equation

**(i)**we get

*y*= ( 3800 – 7 × 500)/6

*y*= 300/6

*y*= 50

(iv) The taxi charges in a city consist of a fixed charge together with the charge for the distance covered. For a distance of 10 km, the charge paid is Rs 105 and for a journey of 15 km, the charge paid is Rs 155. What are the fixed charges and the charge per km? How much does a person have to pay for traveling a distance of 25 km?

**Answer**

Let the fixed charge for taxi = Rs *x*

And variable cost per km = Rs *y*

Total cost = fixed charge + variable charge

Given that for a distance of 10 km, the charge paid is Rs 105

*x* + 10*y* = 105 … **(i)**

* x* = 105 – 10*y*

Given that for a journey of 15 km, the charge paid is Rs 155

*x* + 15*y* = 155

Putting the value of *x* we get

105 – 10*y* + 15*y* = 155

5*y* = 155 – 105

5*y* = 50

Dividing by 5, we get

* y* = 50/5 = 10

Putting this value in equation **(i)** we get

* x * = 105 – 10 × 10

* x * = 5

People have to pay for traveling a distance of 25 km

= *x* + 25*y*

= 5 + 25 × 10

= 5 + 250

=255

(v) A fraction becomes 9/11, if 2 is added to both the numerator and the denominator. If, 3 is added to both the numerator and the denominator it becomes 5/6 . Find the fraction.

**Answer**

Let Numerator = *x*

Denominator = *y*

Fraction will = *x*/*y*

A fraction becomes 9/11, if 2 is added to both the numerator and the denominator

(*x* + 2)/*y*+2 = 9/11

By Cross multiplication, we get

11*x* + 22 = 9*y* + 18

Subtracting 22 both side, we get

11*x* = 9*y* – 4

Dividing by 11, we get

* x * = 9*y* – 4/11 … **(i)**

Given that 3 is added to both the numerator and the denominator it becomes 5/6.

If, 3 is added to both the numerator and the denominator it becomes 5/6

(*x*+3)/*y *+3 = 5/6 … **(ii)**

By Cross multiplication, we get

6*x* + 18 = 5*y* + 15

Subtracting the value of *x,* we get

6(9*y* – 4 )/11 + 18 = 5*y* + 15

Subtract 18 both side we get

6(9*y* – 4 )/11 = 5*y* – 3

54 – 24 = 55*y * – 33

–*y* = -9

*y* = 9

Putting this value of y in equation **(i)**, we get

*x * = 9*y* – 4

11 … **(i)**

*x* = (81 – 4)/77

*x* = 77/11

*x* = 7

(vi) Five years hence, the age of Jacob will be three times that of his son. Five years ago, Jacob’s age was seven times that of his son. What are their present ages?

**Answer**

Let present age of Jacob = *x* year

And present Age of his son is = *y* year

Five years hence,

Age of Jacob will = *x* + 5 year

Age of his son will = *y* + 5year

Given that the age of Jacob will be three times that of his son

*x* + 5 = 3(*y *+ 5)

Adding 5 both side, we get

*x* = 3*y* + 15 – 5

*x* = 3*y* + 10 … **(i)**

Five years ago,

Age of Jacob will = *x* – 5 year

Age of his son will = *y* – 5 year

Jacob’s age was seven times that of his son

*x* – 5 = 7(*y* -5)

Putting the value of *x* from equation **(i)** we get

3*y *+ 10 – 5 = 7*y* – 35

3*y* + 5 = 7*y* – 35

3*y* – 7*y* = -35 – 5

-4y = – 40

*y* = – 40/– 4

*y* = 10 year

Putting the value of *y* in equation first we get

*x* = 3 × 10 + 10

*x* = 40 years

Hence, Present age of Jacob = 40 years and present age of his son = 10 years.

Page No: 56

**Linear Equation Exercise 3.4**

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

(i)** ***x* + *y* =5 and 2*x* –3*y* = 4

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

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

(iv) *x*/2 + 2*y*/3 = – 1 and *x* – *y*/3 = 3

**Answer**

(i) *x* + *y* =5 and 2*x* –3*y* = 4

__By elimination method__

*x* + *y* =5 … **(i)**

2*x* –3*y* = 4 … **(ii)**

Multiplying equation **(i)** by **(ii)**, we get

2*x* + 2*y* = 10 … **(iii)**

2*x* –3*y* = 4 … **(ii)**

Subtracting equation **(ii)** from equation **(iii)**, we get

5*y* = 6

*y* = 6/5

Putting the value in equation **(i)**, we get

*x* = 5 – (6/5) = 19/5

*x*= 19/5 and

*y*= 6/5

__By substitution method__

*x*+

*y*= 5 …

**(i)**

Subtracting

*y*both side, we get

*x*= 5 –

*y*…

**(iv)**

Putting the value of

*x*in equation

**(ii)**we get

2(5 –

*y*) – 3

*y*= 4

-5

*y*= – 6

*y*= -6/-5 = 6/5

Putting the value of

*y*in equation

**(iv)**we get

*x*= 5 – 6/5

*x*= 19/5

Hence,

*x*= 19/5 and

*y*= 6/5 again(ii) 3

*x*+ 4

*y*= 10 and 2

*x*– 2

*y*= 2

__By elimination method__

3

*x*+ 4

*y*= 10 ….

**(i)**

2

*x*– 2

*y*= 2 …

**(ii)**

Multiplying equation

**(ii)**by 2, we get

4

*x*– 4

*y*= 4 …

**(iii)**

3

*x*+ 4

*y*= 10 …

**(i)**

Adding equation

**(i)**and

**(iii)**, we get

7

*x*+ 0 = 14

Dividing both side by 7, we get

*x*= 14/7 = 2

Putting in equation

**(i)**, we get

3

*x*+ 4

*y*= 10

3(2) + 4

*y*= 10

6 + 4

*y*= 10

4

*y*= 10 – 6

4

*y*= 4

*y*= 4/4 = 1

Hence, answer is *x* = 2, *y* = 1

__By substitution method__

3*x* + 4*y* = 10 … **(i)**

Subtract 3*x* both side, we get

4*y* = 10 – 3*x*

Divide by 4 we get

*y* = (10 – 3*x* )/4

Putting this value in equation **(ii)**, we get

2*x* – 2*y* = 2 … **(i)**

2*x* – 2(10 – 3*x* )/4) = 2

Multiply by 4 we get

8*x* – 2(10 – 3*x*) = 8

8*x* – 20 + 6*x* = 8

14*x* = 28

*x* = 28/14 = 2

*y *= (10 – 3*x*)/4

*y*= 4/4 = 1

Hence, answer is *x* = 2, *y* = 1 again.

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

__ By elimination method__

3*x* – 5*y* – 4 = 0

3*x* – 5*y* = 4 …**(i)**

9*x* = 2*y* + 7

9*x* – 2*y * = 7 … **(ii)**

Multiplying equation **(i)** by 3, we get

9 x – 15 y = 11 … **(iii)**

9x – 2y = 7 … **(ii)**

Subtracting equation **(ii)** from equation **(iii)**, we get

-13*y* = 5

*y* = -5/13

Putting value in equation **(i)**, we get

3x – 5y = 4 … **(i)**

3x – 5(-5/13) = 4

Multiplying by 13 we get

39*x* + 25 = 52

39*x* = 27

*x* =27/39 = 9/13

Hence our answer is *x* = 9/13 and *y* = – 5/13

__By substitution method__

3*x* – 5*y* = 4 … **(i)**

Adding 5*y* both side we get

3*x* = 4 + 5*y*

Dividing by 3 we get

*x* = (4 + 5*y* )/3 … **(iv)**

Putting this value in equation **(ii)** we get

9*x* – 2*y* = 7 … **(ii)**

9 ((4 + 5*y *)/3) – 2*y* = 7

Solve it we get

3(4 + 5*y* ) – 2*y* = 7

12 + 15*y* – 2*y* = 7

13*y* = – 5

*y* = -5/13

Hence we get *x* = 9/13 and *y* = – 5/13 again.

*x*/2 + 2

*y*/3 = – 1 and

*x*–

*y*/3 = 3

__By elimination method__

*x*/2 + 2

*y*/3 = -1 …

**(i)**

*x*–

*y*/3 = 3 …

**(ii)**

Multiplying equation

**(i)**by 2, we get

*x*+ 4

*y*/3 = – 2 …

**(iii)**

*x*–

*y*/3 = 3 … (ii)

Subtracting equation

**(ii)**from equation

**(iii)**, we get

5

*y*/3 = -5

Dividing by 5 and multiplying by 3, we get

*y*= -15/5

*y*= – 3

Putting this value in equation

**(ii)**, we get

*x*–

*y*/3 = 3 …

**(ii)**

*x*– (-3)/3 = 3

*x*+ 1 = 3

*x*= 2

Hence our answer is *x* = 2 and *y* = −3.

__By substitution method__

*x* – *y*/3 = 3 … **(ii)**

Add *y*/3 both side, we get

*x *= 3 + *y*/3 … **(iv)**

Putting this value in equation** (i)** we get

*x*/2 + 2*y*/3 = – 1 … **(i)**

(3+ *y*/3)/2 + 2*y*/3 = -1

3/2 + *y*/6 + 2*y*/3 = – 1

Multiplying by 6, we get

9 + *y* + 4*y * = – 6

5*y* = -15

*y* = – 3

*x*= 2 and

*y*= −3.

Page No: 57

**2. 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 1/2 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.

**Answer**

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

According to the question,*x* + 1/*y* – 1 = 1

⇒ *x *– *y *= -2 … **(i)***x*/*y*+1 = 1/2

⇒ 2*x* – *y *= 1 … **(ii)**

Subtracting equation **(i)** from equation **(ii)**, we get

*x* = 3 … **(iii)**

Putting this value in equation **(i)**, 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*

According to the given information,question,(*x* – 5) = 3(*y* – 5)

*x* – 3*y* = -10 … **(i)**

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

*x* – 2*y* = 10 … **(ii)**

Subtracting equation **(i)** from equation **(ii)**, we get

*y* = 20 … **(iii)**

Putting this value in equation **(i)**, 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*

According to the question,

x + *y* = 9 … **(i)**

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

88*y* – 11*x* = 0

– *x* + 8*y* =0 … **(ii)**

Adding equation **(i)** and **(ii)**, we get

9*y* = 9

*y* = 1 … **(iii)**

Putting the value in equation **(i)**, we get

*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.

According to the question,

*x *+ *y *= 25 … **(i)**

50*x* + 100*y* = 2000 … **(ii)**

Multiplying equation (i) by 50, we get

50*x* + 50*y* = 1250 … **(iii)**

Subtracting equation **(iii)** from equation **(ii)**, we get

50*y* = 750

*y* = 15

Putting this value in equation **(i)**, 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.

According to the question,

*x *+ 4*y* = 27 … **(i)**

*x *+ 2*y* = 21 …** (ii)**

Subtracting equation **(ii)** from equation **(i)**, we get

2*y* = 6

*y* = 3 … **(iii)**

Putting in equation **(i)**, we get

*x* + 12 =27

*x* = 15

Hence, fixed charge = Rs 15 and Charge per day = Rs 3.

Page No: 62

**Exercise 3.5**

**1. Which of the following pairs of linear equations has unique solution, no solution or infinitely many solutions? In case there is a unique solution, find it by using cross multiplication method.**

*x*– 3

*y*– 3 = 0 ; 3

*x*– 9

*y*– 2 =0

(ii) 2

*x*+

*y*= 5 ; 3

*x*+2

*y*=8

(iii) 3

*x*– 5

*y*= 20 ; 6

*x*– 10

*y*=40

(iv)

*x*– 3

*y*– 7 = 0 ; 3

*x*– 3

*y*– 15= 0

**Answer**

*x*– 3

*y*– 3 = 0

3

*x*– 9

*y*– 2 =0

*a*

_{1}/

*a*

_{2}= 1/3

*b*

_{1}/

*b*

_{2}= -3/-9 = 1/3 and

*c*

_{1}/

*c*

_{2}= -3/-2 = 3/2

*a*

_{1}/a

_{2}=

*b*

_{1}/

*b*

_{2 }≠

_{ }

*c*

_{1}/

*c*

_{2}

_{ }

Therefore, the given sets of lines are parallel to each other. Therefore, they will not intersect each other and thus, there will not be any solution for these equations.

(ii) 2*x* + *y* = 5

3*x* +2*y* = 8

*a*_{1}/*a*_{2} = 2/3

*b*_{1}/*b*_{2} = 1/2 and

*c*_{1}/*c*_{2} = -5/-8 = 5/8

*a*_{1}/a_{2} ≠_{ }*b*_{1}/*b*_{2}

_{ } Therefore, they will intersect each other at a unique point and thus, there will be a unique solution for these equations.

By cross-multiplication method,

*x*/*b*_{1}*c*_{2}–*b*_{2}*c*_{1 }=_{ }*y*/*c*_{1}*a*_{2}–*c*_{2}*a*_{1 }= 1/*a*_{1}*b*_{2}–*a*_{2}*b*_{1}

*x*/-8-(-10) = *y*/-15+16 = 1/4-3

*x*/2 = *y*/1 = 1

*x*/2 = 1, *y*/1 = 1

∴ *x *= 2, *y *= 1.

(iii) 3*x* – 5*y* = 20

6*x* – 10*y* = 40

*a*_{1}/*a*_{2} = 3/6 = 1/2

*b*_{1}/*b*_{2} = -5/-10 = 1/2 and

*c*_{1}/*c*_{2} = -20/-40 = 1/2

*a*_{1}/a_{2} =_{ }*b*_{1}/*b*_{2 }=_{ }*c*_{1}/*c*_{2}

_{ } Therefore, the given sets of lines will be overlapping each other i.e., the lines will be coincident to each other and thus, there are infinite solutions possible for these equations.

(iv) *x* – 3*y* – 7 = 0

3*x* – 3*y* – 15= 0

*a*_{1}/*a*_{2} = 1/3

*b*_{1}/*b*_{2} = -3/-3 = 1 and

*c*_{1}/*c*_{2} = -7/-15 = 7/15

*a*_{1}/a_{2} ≠_{ }*b*_{1}/*b*_{2}

_{ } Therefore, they will intersect each other at a unique point and thus, there will be a unique solution for these equations.

By cross-multiplication,

*x*/45-(21) = y/-21-(-15) = 1/-3-(-9)

*x*/24 = *y*/-6 = 1/6

*x*/24 = 1/6 and *y*/-6 = 1/6

*x *= 4 and *y *= -1

∴ *x *= 4, *y *= -1.

**2. (i) For which values of a and b does the following pair of linear equations have an infinite number of solutions?**

2*x* + 3*y* =7

(*a* – *b*)*x* + (*a* + *b*)*y* = 3*a* +*b* –2

**Answer**

2*x* + 3*y* -7 = 0

*a*–

*b*)

*x*+ (

*a*+

*b*)

*y*– (3

*a*+

*b*–2) = 0

*a*_{1}/*a*_{2} = 2/*a*–*b* = 1/2

*b*_{1}/*b*_{2} = -7/*a*+*b* and

*c*_{1}/*c*_{2} = -7/-(3*a*+*b*-2) = 7/(3*a*+*b*-2)

For infinitely many solutions,*a*_{1}/*a*_{2} = *b*_{1}/*b*_{2 = }*c*_{1}/*c*_{2}

_{ } 2/*a*–*b *= 7/3*a*+*b*-26*a* + 2*b* – 4 = 7*a* – 7*b*

*a* – 9*b* = -4 … **(i)**

2/*a*–*b *= 3/*a*+*b*

2*a* + 2*b* = 3*a* – 3*b*

*a* – 5*b* = 0 … **(ii)**

Subtracting equation **(i)** from **(ii)**, we get

4*b* = 4

*b* = 1

Putting this value in equation **(ii)**, we get

*a* – 5 × 1 = 0

*a* = 5

Hence, *a* = 5 and *b* = 1 are the values for which the given equations give infinitely many solutions.

(ii) For which value of k will the following pair of linear equations have no solution?

*x*+

*y*= 1

(2*k* –1)*x* + (*k* –1)*y* = 2*k* + 1

**Answer**

*x*+

*y*-1 = 0

*k*–1)

*x*+ (

*k*–1)

*y*– (2

*k*+ 1) = 0

*a*_{1}/*a*_{2} = 3/2*k*-1

*b*_{1}/*b*_{2} = 1/*k*-1 and

*c*_{1}/*c*_{2} = -1/-2*k*-1 = 1/2*k*+1

For no solutions,

*a*_{1}/*a*_{2} = *b*_{1}/*b*_{2 }≠_{ }*c*_{1}/*c*_{2}

3/2*k*-1 = 1/*k*-1 ≠ 1/2*k*+1

3/2*k*-1 = 1/*k*-1

3*k* – 3 = 2*k* – 1

*k* = 2

Hence, for *k* = 2, the given equation has no solution.

3. Solve the following pair of linear equations by the substitution and cross-multiplication methods:

8*x* +5*y* = 9

3*x* +2*y* = 4

**Answer**

8*x* +5*y* = 9 … **(i)**

3*x* +2*y* = 4 … **(ii)**

From equation **(ii)**, we get

*x* = 4-2*y*/3 … **(iii)**

Putting this value in equation **(i)**, we get

8(4-2*y*/3) + 5*y* = 9

32 – 16*y* +15*y* = 27

–*y* = -5

*y* = 5 … **(iv)**

Putting this value in equation **(ii)**, we get

3*x* + 10 = 4

*x* = -2

Hence, *x* = -2, *y *= 5

By cross multiplication again, we get

*x*+ 5

*y*-9 = 0

*x*/-20-(-18) = *y*/-27-(-32) = 1/16-15

*x*/-2 = *y*/5 = 1/1

*x*/-2 = 1 and *y*/5 = 1

*x* = -2 and *y* = 5

**4. Form the pair of linear equations in the following problems and find their solutions (if they exist) by any algebraic method:**

(i) A part of monthly hostel charges is fixed and the remaining depends on the number of days one has taken food in the mess. When a student A takes food for 20 days she has to pay Rs 1000 as hostel charges whereas a student B, who takes food for 26 days, pays Rs 1180 as hostel charges. Find the fixed charges and the cost of food per day.

**Answer**

*x*be the fixed charge of the food and

*y*be the charge for food per day.According to the question,

*x*+ 20

*y*= 1000 …

**(i)**

x + 26*y* = 1180 … **(ii)**

Subtracting equation **(i)** from equation **(ii)**, we get

*y*= 180

*y* = 180/6 = 30

Putting this value in equation **(i)**, we get

*x* + 20 × 30 = 1000

*x* = 1000 – 600

*x* = 400

Hence, fixed charge = Rs 400 and charge per day = Rs 30

**Answer**

Let the fraction be

*x*/

*y*

According to the question,

*x*-1/

*y*= 1/3

⇒ 3

*x*–

*y*= 3…

**(i)**

*x*/

*y*+8 = 1/4

⇒ 4

*x*–

*y*= 8 …

**(ii)**

Subtracting equation

**(i)**from equation

**(ii)**, we get

*x*= 5 …

**(iii)**

**(i)**, we get

*y*= 3

*y*= 12

Hence, the fraction is 5/12. (iii) Yash scored 40 marks in a test, getting 3 marks for each right answer and losing 1 mark for each wrong answer. Had 4 marks been awarded for each correct answer and 2 marks been deducted for each incorrect answer, then Yash would have scored 50 marks. How many questions were there in the test?

**Answer**

*x*and

*y*respectively. According to the question,

*x*–

*y*= 40 …

**(i)**

*x*– 2

*y*= 50

*x*–

*y*= 25 …

**(ii)**

Subtracting equation **(ii)** from equation **(i)**, we get

*x *= 15 … **(iii)**

Putting this value in equation **(ii)**, we get

*y*= 25

*y*= 5

And number of wrong answers = 5

Total number of questions = 20

**Answer**

Respective speed of both cars while they are travelling in same direction = (

*u –*

*v*) km/h

Respective speed of both cars while they are travelling in opposite directions i.e., travelling towards each other = (*u *+ *v*) km/h

*u*–

*v*) = 100

*u*–

*v*= 20 …

**(i)**

*u*+

*v*) = 100 …

**(ii)**

Adding both the equations, we get

*u*= 120

*u*= 60 km/h …

**(iii)**

Putting this value in equation **(ii)**, we obtain

*v* = 40 km/h

Hence, speed of one car = 60 km/h and speed of another car = 40 km/h

**Answer**

*x*unit and

*y*unit respectively.

Area =

*xy*

According to the question,

(

*x*– 5) (

*y*+ 3) =

*xy*– 9

⇒ 3

*x*– 5

*y*– 6 = 0 …

**(i)**

(

*x*+ 3) (

*y*+ 2) =

*xy*+ 67

⇒ 2

*x*– 3

*y*– 61 = 0 …

**(ii)**

By cross multiplication, we get

*x*/305-(-18) =

*y*/-12-(-183) = 1/9-(-10)

*x*/323 =

*y*/171 = 1/19

*x*= 17,

*y*= 9

Hence, the length of the rectangle = 17 units and breadth of the rectangle = 9 units.

**Exercise 3.6**

**1. Solve the following pairs of equations by reducing them to a pair of linear equations:**

(i) 1/2

*x*+ 1/3

*y*= 2

1/3

*x*+ 1/2

*y*= 13/6

(ii) 2/√

*x*+3/√

*y*= 2

4/√

*x*– 9/√y = -1

(iii) 4/

*x*+ 3

*y*= 14

3/

*x*– 4

*y*= 23

(iv) 5/

*x*-1 + 1/

*y*-2 = 2

6/

*x*-1 – 3/

*y*-2 = 1

(v) 7

*x*-2

*y*/

*xy*= 5

8

*x*+ 7

*y*/

*xy*= 15

(vi) 6

*x*+ 3

*y*= 6

*xy*

2

*x*+ 4

*y*= 5

*xy*

(vii) 10/

*x*+

*y*+ 2/

*x*–

*y*= 4

15/

*x*+

*y*– 5/

*x*–

*y*= -2

(viii) 1/3

*x*+

*y*+ 1/3

*x*–

*y*= 3/4

1/2(3

*x*–

*y*) – 1/2(3

*x*–

*y*) = -1/8

**Answer**(i) 1/2

*x*+ 1/3

*y*= 2

1/3

*x*+ 1/2

*y*= 13/6

Let 1/

*x*=

*p*and 1/

*y*=

*q*, then the equations changes as below:

*p*/2 +

*q*/3 = 2

⇒ 3

*p*+ 2

*q*-12 = 0 …

**(i)**

*p*/3 +

*q*/2 = 13/6

⇒ 2

*p*+ 3

*q*-13 = 0 …

**(ii)**By cross-multiplication method, we get

*p*/-26-(-36) = *q*/-24-(-39) = 1/9-4

*p*/10 = *q*/15 = 1/5

*p*/10 = 1/5 and *q*/15 = 1/5

*p *= 2 and *q *= 3

1/*x *= 2 and 1/*y *= 3

Hence, *x *= 1/2 and *y *= 1/3

(ii) 2/√*x* +3/√*y* = 2

4/√*x* – 9/√y = -1

Let 1/√*x *= *p* and 1/√*y* = *q*, then the equations changes as below:

2p + 3q = 2 … **(i)**

4p – 9q = -1 … **(ii)**

Multiplying equation **(i)** by 3, we get

6p + 9q = 6 … **(iii)**

Adding equation **(ii)** and **(iii)**, we get

**(iv)**

**(i)**, we get

3q = 1

q = 1/3

*p*= 1/√

*x*= 1/2

√

*x*= 2

*x*= 4

and

*q*= 1/√

*y*= 1/3

√

*y*= 3

*y*= 9

Hence,

*x*= 4,

*y*= 9

(iii) 4/*x* + 3*y* = 14

3/*x* – 4*y* = 23

Putting 1/*x* = *p* in the given equations, we get

4*p* + 3*y* = 14

⇒ 4*p* + 3y – 14 = 0

3*p* – 4*y* = 23

⇒ 3*p* – 4*y* -23 = 0

By cross-multiplication, we get

*p*/-69-56 = *y*/-42-(-92) = 1/-16-9

⇒ –*p*/125 = *y*/50 = -1/25

Now,

–*p*/125 = -1/25 and *y*/50 = -1/25

⇒ *p* = 5 and *y* = -2

Also, *p* = 1/*x* = 5

⇒ *x* = 1/5

So, *x* = 1/5 and *y* = -2 is the solution.

(iv) 5/*x*-1 + 1/*y*-2 = 2

6/*x*-1 – 3/*y*-2 = 1

Putting 1/*x*-1 = *p* and 1/*y*-2 = *q* in the given equations, we obtain

5*p* + *q* = 2 … **(i)**

6*p* – 3*q* = 1 … **(ii)**

Now, by multiplying equation **(i)** by 3 we get

15*p* + 3*q* = 6 … **(iii)**

Now, adding equation **(ii)** and **(iii)**

21*p* = 7

⇒ *p* = 1/3

Putting this value in equation **(ii)** we get,

6×1/3 – 3*q* =1

⇒ 2-3*q* = 1

⇒ -3*q* = 1-2

⇒ -3*q* = -1

⇒ *q* = 1/3

Now,

*p* = 1/*x*-1 = 1/3

⇒1/*x*-1 = 1/3

⇒ 3 = *x *– 1

⇒ *x* = 4

Also,

*q* = 1/*y*-2 = 1/3

⇒ 1/*y*-2 = 1/3

⇒ 3 = *y*-2

⇒ *y* = 5

Hence, *x* = 4 and *y* = 5 is the solution.

(v) 7*x*-2*y*/*xy* = 5

⇒ 7*x*/*xy* – 2*y*/*xy* = 5

⇒ 7/*y* – 2/*x* = 5 … **(i)**

8*x*+7*y*/*xy* = 15

⇒ 8*x*/*xy* + 7*y*/*xy* = 15

⇒ 8/*y* + 7/*x* = 15 … **(ii)**

Putting 1/*x* = *p* and 1/*y* = *q* in **(i)** and **(ii)** we get,

7*q* – 2*p* = 5 … **(iii)**

8*q* + 7*p* = 15 … **(iv)**

Multiplying equation **(iii)** by 7 and multiplying equation **(iv)** by 2 we get,

49*q* – 14*p* = 35 … **(v)**

16*q* + 14*p* = 30 … **(vi)**

Now, adding equation **(v)** and **(vi)** we get,

49*q* – 14*p* + 16*q* + 14*p* = 35 + 30

⇒ 65*q* = 65

⇒ *q* = 1

Putting the value of q in equation **(iv)**

8 + 7*p* = 15

⇒ 7*p* = 7

⇒ *p* = 1

Now,

*p* = 1/*x* = 1

⇒ 1/*x* = 1

⇒ *x* = 1

also, *q* = 1 = 1/*y*

⇒ 1/*y* = 1

⇒ *y *= 1

Hence, *x *=1 and *y* = 1 is the solution.

(vi) 6*x* + 3*y* = 6*xy*

⇒ 6*x*/*xy *+ 3*y*/*xy* = 6

⇒ 6/y + 3/*x* = 6 … **(i)**

2*x* + 4y = 5*xy*

⇒ 2*x*/*xy* + 4y/*xy* = 5

⇒ 2/*y* + 4/*x* = 5 … **(ii)**

Putting 1/*x* = p and 1/*y* = *q* in **(i)** and **(ii)** we get,

6q + 3p – 6 = 0

2q + 4p – 5 = 0

By cross multiplication method, we get

*p*/-30-(-12) = q/-24-(-15) = 1/6-24

*p*/-18 = *q*/-9 = 1/-18

*p*/-18 = 1/-18 and q/-9 = 1/-18

*p *= 1 and q = 1/2

*p *= 1/x = 1 and q = 1/y = 1/2

*x *= 1, y = 2

Hence, *x *= 1 and *y *= 2

(vii) 10/*x*+*y* + 2/*x*–*y* = 4

15/*x*+*y* – 5/*x*–*y* = -2

Putting 1/*x*+*y* = *p* and 1/*x*–*y* = q in the given equations, we get:

10*p* + 2*q* = 4

⇒ 10*p* + 2*q* – 4 = 0 … **(i)**

15*p* – 5*q* = -2

⇒ 15*p* – 5*q* + 2 = 0 … **(ii)**

Using cross multiplication, we get

*p*/4-20 = *q*/-60-(-20) = 1/-50-30

*p*/-16 = *q*/-80 = 1/-80

*p*/-16 = 1/-80 and *q*/-80 = 1/-80

*p* = 1/5 and *q* = 1

*p* = 1/*x*+*y* = 1/5 and *q* = 1/*x*–*y* = 1

*x* + *y* = 5 … **(iii)**

and *x* – *y* = 1 … **(iv)**

Adding equation **(iii)** and **(iv)**, we get

2*x* = 6

*x* = 3 …. **(v)**

Putting value of *x* in equation **(iii)**, we get

*y* = 2

Hence, *x* = 3 and *y* = 2

(viii) 1/3*x*+*y* + 1/3*x*–*y* = 3/4

1/2(3*x*–*y*) – 1/2(3*x*–*y*) = -1/8

Putting 1/3*x*+*y* = *p* and 1/3*x*–*y* = *q* in the given equations, we get

*p* + *q* = 3/4 … **(i)**

*p*/2 – *q*/2 = -1/8

*p *– *q *= -1/4 … **(ii)**

Adding **(i)** and **(ii)**, we get

2*p* = 3/4 – 1/4

2*p* = 1/2

*p *= 1/4

Putting the value in equation **(ii)**, we get

1/4 – *q* = -1/4

*q* = 1/4 + 1/4 = 1/2

*p* = 1/3*x*+*y* = 1/4

3*x* + *y* = 4 … **(iii)**

*q* = 1/3*x*–*y* = 1/2

3*x* – *y* = 2 … **(iv)**

Adding equations **(iii)** and **(iv)**, we get

6*x* = 6

*x* = 1 … **(v)**

Putting the value in equation **(iii)**, we get

3(1) + *y* = 4

*y* = 1

Hence, *x* = 1 and *y* = 1

**2. Formulate the following problems as a pair of equations, and hence find their solutions:**

(i) Ritu can row downstream 20 km in 2 hours, and upstream 4 km in 2 hours. Find her speed of rowing in still water and the speed of the current.

**Answer**

Let the speed of Ritu in still water and the speed of stream be* x* km/h

and *y* km/h respectively.

Speed of Ritu while rowing

Upstream = (*x* – *y*) km/h

*x*+

*y*) km/h

According to question,

*x*+

*y*) = 20

*x*+

*y*= 10 …

**(i)**

2(

*x*–

*y*) = 4

⇒

*x*–

*y*= 2 …

**(ii)**

Adding equation

**(i)**and

**(ii)**, we get

**(i)**, we get

*y*= 4

Hence, Ritu’s speed in still water is 6 km/h and the speed of the current is 4 km/h.

(ii) 2 women and 5 men can together finish an embroidery work in 4 days, while 3 women and 6 men can finish it in 3 days. Find the time taken by 1 woman alone to finish the work, and also that taken by 1 man alone.

**Answer**

Let the number of days taken by a woman and a man be *x* and *y* respectively.

Therefore, work done by a woman in 1 day = 1/*x*

*x*+ 5/

*y*) = 1

*x*+ 5/

*y*= 1/4

*x*+ 6/

*y*) = 1

*x*+ 6/

*y*= 1/3

*x*=

*p*and 1/

*y*=

*q*in these equations, we get

*p*+ 5

*q*= 1/4

*p*/-20-(-18) =

*q*/-9-(-18) = 1/144-180

*p*/-2 =

*q*/-1 = 1/-36

*p*/-2 = -1/36 and

*q*/-1 = 1/-36

*p*= 1/18 and q = 1/36

*p*= 1/

*x*= 1/18 and

*q*= 1/y = 1/36

*x*= 18 and

*y*= 36

**Answer**

According to the given information,

60/*u* + 240/*v *= 4 … **(i)**

100/*u* + 200/*v *= 25/6 … **(ii)**

Putting 1/*u* = *p* and 1/*v* = *q* in the equations, we get

60*p* + 240*q* = 4 … **(iii)**

100*p* + 200*q* = 25/6

600*p* + 1200*q* = 25 … **(iv)**

Multiplying equation **(iii)** by 10, we get

600*p* + 2400*q* = 40 …. **(v)**

Subtracting equation **(iv)** from **(v)**, we get1200*q* = 15

*q* = 15/200 = 1/80 … **(vi)**

Putting equation **(iii)**, we get

60*p* + 3 = 4

60*p* = 1

*p* = 1/60

*p* = 1/*u* = 1/60 and *q* = 1/*v* = 1/80

*u* = 60 and *v* = 80

Hence, speed of train = 60 km/h and speed of bus = 80 km/h.