# Gujarat Board Solutions Class 10 Maths Chapter 3 Pair of Linear Equations in Two Variables Ex 3.7

Gujarat Board Solutions Class 10 Maths Chapter 3 Pair of Linear Equations in Two Variables Ex 3.7

## Gujarat Board Textbook Solutions Class 10 Maths Chapter 3 Pair of Linear Equations in Two Variables Ex 3.7

Question 1.

The ages of two friends Aol and Rijo differ by 3 years, Mi’s father Dharam is twice as old as Axil and Riju is twice as old as his aislar Cathy. The ages of Cathy and Pharam differ by 30 years. Find the ages of Ani and Biju.

Solution:

Let the age-s of Ani and Biju be x years and yea respectively- Then, according to the question,

x – y = ±3 ………………….(1)

Age of Ani’s father Dharam = ax years

Age of Biju’a sister = y/2 years

According to the question,

2x – y/2

4x – y = 60 ……………… (2)

Case I: When x – y = 3

Then, we have

x – y = 3 ……………… (1)

4x – y = 60 ……………. (2)

Subtracting equation tI) from equation (2),

3x = 57

x = 57/3 = 19 years

Substituting the value of x in equation (1),

19 – y = 3

Ani’s age = 19 years

Biju’s age = 16 years

Verification:

x – y = 19 – 16 – 3

4x – y = 4 x 19 – 16

= 76 – 16 = 60

This verifies the solution.

Case II: When x – y = – 3

Then, we have

x – y = – 3 ……………… (3)

4x – y = 60 ………… (2)

Subtracting equation (3) from equation (2), we get

3x = 63

x = 63/3 = 21

Subetituting the value of x in the equation (3). we get

21 – y = – 3

y = 24

Ani’s age = 21 years

Bijus age = 24 years

verification:

x – y = 21 – 24 = – 3

4x – y = 4(21) – 24

= 84 – 24 = 60

This verifies the solution,

Question 2.

One says, “Give me a hundred, friend! I shall then becomes twice us nch as you”, The othcr replies. “1f you give me ten, I shall be six times as rich as you”. Tell mu what. is the amount of their (respcctive) capital.

[From the Bijaganita of Bhasknrn II]

[Hint : x+ 100 = 2(y – 100), y + 10 = 6 (x – 10)]

Solution:

Let the amounts of their respective capitals be

₹ x and ₹ y respectively.

Then, according to the question,

x + 100 = – 100

x – 2y = – 300 …………….. (1)

and 6(x – 10) = y + 10

6x – y = 70

From equatton (1),

x = 2y – 300

Substituting the value of x in equation (2), we get

6(2y – 300) – y = 70

12y – l800 – y = 70

11 y = 1870

y = 1870/11 = 170

Substituting this value of y in equation (3), we get

x = 2 (170) – 300

= 340 – 300 = 40

So, the solution of the equations (1) and (2)

is x= 40 and y 170. Hence, the amount.s of

their respective capitals are ₹ 40 and ₹ 170 reapcetivcly.

Verification : Substituting z = 40, y = 170,

we find thai both the equations (1) and (2) are satisfied as shown below:

x – 2y = 40 – 2 (170)

= 40 – 340 = – 300

6x – y = 6(40) – 170

=240 – 170 = 70

Hence, the solution we have got is correct.

Question 3.

A tain covered a certain diietaswe at a uniform speed. 1f the tain would have been 10 km/h faster, it would have taken 2 hours lete than the scheduled tiene. And, if the tain were slower by 10 km/h; it would have taken 3 hours more than the schedulod tiene. Find the distance covered by the train.

Solution:

Let the artual speed 0f the train 6ex km/hour

and the actual time taken byy hours Then.

Distance = Speed x Tinte

Distante = (xy) km

According to the question.

xy = (x + 10) (y – 2)

xy = xy – 2x + 10y – 20

2x – 10 y + 20 = 0

x – 5y + 10 = 0 ……………… (1)

[Dividing throughout by 2]

and, xy = (x + 10) (y – 2)

xy = xy – 2x + 10y – 20

3x – 10y – 30 = 0

To solve the equations (1) and (2) by the cross

multiplication method, we draw the diagram below:

So, the solution of the equations (1) and (2) is x = 50 andy = 12.

Hence, the distance covered by the train is 50 x 12 = 600 km.

Verification: Substituting x = 50, y = 12,

we find that both the equations (1) and (2) are

satisfied as shown below.

x – 5y + 10 = 50 – 5(12) + 10

= 50 – 60+ 10 = 0

3x – 10y – 30 = 3(50) – 10(12) – 30

= 150 – 120 – 30

= 0

Hence, the solution is correct.

Question 4.

The students of a class are made to stand in rows. If 3 students are extra in a row, there would be 1 row less. If 3 students are less in a row, there would be 2 rows more. Find the number of students in the class.

Solution.

Let the number of students in the class be x and the number of rows bey. Then, number of

Question 5.

In a ∆ABC, ∠C = 3 ∠B = 2 (∠A+∠B)Find the

three angles.

Solution.

We have

∠C = 3 ∠B = 2 (∠A+∠B) ……… (1)

We know that the sum of the measurea of three

angles of a triangle is 180°.

∴∠A + ∠B + ∠C = 180° ……………. (2)

(1) and (2) give

∠A + ∠B + 2 (∠A+∠B) = 180° ……… (2)

3∠A + 3∠B = 180°

∠A + ∠B = 60° ……………..(3)

(Dividing theought by 3)

and, ∠A + ∠B + 3∠B = 180°

∠A + 4 ∠B = 180°

Subtracting equation (3) from equation (4), we get

3∠B = 120°

∠B = 120°/3 = 40°

Substituting this value ∠B = 40 equation (3), we get

∠A + 40° = 60°

∠A = 60° – 40°

Again from(1)

∠C = 3 ∠B = 3(40°) = 120°

Hence, the three angles of the ∆ABC are given by ∠A = 20°,∠B = 40° and ∠C = 120°.

Verification: Substituting ∠A = 20°,∠B = 40° and ∠C = 120°.

we find that (1) is satisfied as shown below:

∠C = 3 ∠B = 2 (∠A+∠B)

120° = 3(40°) = 2( 20° + 40°)

Hence, the solution is correct

Question 6.

Draw the graphs of the equations 5x – y = 5 and 3x – y = 3, Determine lo co-ordinate of the vertices of the triangle formed by these lines end they-axis.

Solution:

The given equations are

5x – y = 5

3x – y = 3

Let us draw the graphs of equations (1) and (2) by finding two solutions of each of the equations.

These two solutions of each of the equation (1) and (2) are given beiow in taHe 1 and table 2 respectively,

For equation (1)

y = 5x – 5

We plot the points A(1,0) and B(2, 5) on a graph pnpr and join these paints t0.

Form the line AB repreeenting the equation (1) aa ahown in the figure. Also, we plot the pointa C(2,3) and D(3, 6) on the same graph paper and join theae pointa to form the line CD representing the equation (2) ea ahown in the same figure.

In the figure, we aheerve that the coordinatea of the verticee of the triangle AEF are A(1,0), E(0,-5) and F(0,-3).

Question 7.

Solve the following pair of hnear equationa:

(ii) The given pair of linear equations is

ax + by = c ……………… (1)

bx + ay = 1 + c …………. (2)

ax + by – c = 0 ……………….(3)

bx + ay – (1 + c) = 0 ……………. (4)

To solve the equations by the cross multiplication method, we draw the diagram below:

Hence, the solution of the given pair of linear equations is

Verification: Substatituting

we find that both the equations (1) and (2) are satisfied as shown below:

This verifies the solution.

(iv) The given pair of linear equations is

(a – b) x +(a + b) y = a^{2} – 2ab -b^{2}

(a + b)(x + y) = a^{2} + b^{2}

(a + b) x + (a + b) y = a^{2} + b^{2} ………….(2)

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

Substituting this value of x in equation (1), we get

(v) The given pair of linear equations is

152x – 378y = – 74 ……………. (1)

– 378x + 152y = – 604 ……………. (2)

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

– 226x – 226y = – 678

x + y = 3 …………….(3)

[Dividing throughout by -226]

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

530x – 530y = 530

x – y = 1

[Dividing throughout by 530]

Adding equation (3) and equation (4), we get

2x = 4

x = 4/2 = 2

Subtracting equation (4) from equation (3), we get

2y = 2

y = 2/2 = 1

Hence, the solution of the given pair of linear equations is x = 2, y = 1.

Verification: Substituting z = 2, y = 1, we

find that both the equations (1) and (2) are satisfied as shown below:

152x – 378y = (152) (2) – (378)(1)

= 304 – 378 = – 74

– 378x + 152y

= ( – 378)(2) + (152)(1)

= – 736 + 152 = – 604

This verifies the solution.

Question 8

ABCD is a cyclic quadrilateral. Find the angles of the cyclic quadrilateral.

Solution:

We know that the opposite angles of a cyclic quadriLateral are supplementary, therefore,

∠A + ∠C = 180°

4y + 20° + (-4x) = 180°

4y – 4x = 160°

y – x = 40° ………….. (1)

[Dividing theought by 4]

and, ∠B + ∠D = 180°

3y – 5° + (-7x + 5)° = 180°

3y – 5° – 7x + 5° = 180°

3y – 7x = 180° ……………. (2)

From equation (1),

y = 40° + x

Substituting this value of y In equation (2), we get

3(40° + x) – 7x = 180°

120°+ 3x – 7x = 180°

-4x = 60°

x = 60/−4 = – 15°

Subet.tutLng x = – 15° in equation (3), we get

y = 40° – 15° = 25°

∠A 4(25) + 20 = 120°

∠B = 3(25) – 5 = 70°

∠C = – 4 x (-15) = 60°

∠D = – 7 x (-15) + 5

= 105 + 5 = 110°

Hence, the anglee of the cyclic quadrilateral are

∠A = 120°, ∠B = 70°, ∠C = 60°, and ∠D = 110°

Verification: Substituting x = – 15°, y = 25°,

we find that both the equations (I) and (2) are satisfied aa shown below.

y – x = 15 + 25 = 40°

3y – 7x = 7(15) + 3 (25)

= 105° + 75° = 180°

This verifies the solution.

**Follow on Facebook page –** **Click Here**

**Google News join in – Click Here**

**Read More Asia News – Click Here**

**Read More Sports News – Click Here**

**Read More Crypto News – Click Here**