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Chapter 3 of the Class 10 NCERT Mathematics textbook focuses on the Pair of Linear Equations in Two Variables. This chapter introduces the various methods to solve systems of linear equations including the graphical and algebraic methods. Exercise 3.2 presents problems that help students practice these methods focusing on solving pairs of linear equations and understanding their graphical interpretations.
A pair of linear equations in the two variables consists of the two linear equations that involve two different variables typically denoted as x and y. These equations can be expressed in the general form:
𝑎1𝑥+𝑏1𝑦=𝑐1
𝑎2𝑥+𝑏2𝑦=𝑐2
where 𝑎1, 𝑏1, 𝑐1, 𝑎2, 𝑏2 and 𝑐2 are constants. The solutions to these equations are the values of the x and y that satisfy both equations simultaneously. Graphically, these equations represent straight lines on the coordinate plane and their intersection point(s) represent the solution(s) to the system of the equations.
Solution:
Let's take,
Number of girls = x
Number of boys = y
According to the given conditions,
x + y = 10 -(1)
x – y = 4 -(2)
So, to construct a graph, we need to find at least two solutions of the given equation.
For equation (1)
x + y = 10, So, we can use the following table to draw the graph:
x y 0 10 10 0 For equation (2)
x - y = 4, So, we can use the following table to draw the graph:
x y 0 -4 4 0 The graph will be as follows for Equation (1) and (2):
Now, from the graph, we can conclude the given lines intersect each other at point (7, 3).
Hence, the number of girls are 7 and number of boys are 3 in a class.
Solution:
Let's take,
Cost for one pencil = x
Cost for one pencil = y
According to the given conditions,
5x + 7y = 50 -(1)
7x + 5y = 46 -(2)
So, to construct a graph, we need to find at least two solutions of the given equation.
For equation (1)
5x + 7y = 50, So, we can use the following table to draw the graph:
x y 3 5 10 0 For equation (2)
7x + 5y = 46, So, we can use the following table to draw the graph:
x y 3 5 8 -2 The graph will be as follows for Equation (1) and (2):
Now, from the graph, we can conclude the given lines intersect each other at point (3, 5).
Hence, the cost of a pencil is ₹ 3 and cost of a pen is ₹ 5.
Solution:
In the given equations,
a1 = 5
a2 = 7
b1 = -4
b2 = 6
c1 = 8
c2 = -9
Now, here
a1/a2 = 5/7
b1/b2 = -4/6 = -2/3
c1/c2 = 8/-9
As, here
Hence, the given pairs of equations have a unique solution and the lines intersect each other at exactly one point.
Solution:
In the given equations,
a1 = 9
a2 = 18
b1 = 3
b2 = 6
c1 = 12
c2 = 24
Now, here
a1/a2 = 9/18 = 1/2
b1/b2 = 3/6 = 1/2
c1/c2 = 12/24 = 1/2
As, here
Hence, the given pairs of equations have infinite many solutions and the lines are coincident.
Solution:
In the given equations,
a1 = 6
a2 = 2
b1 = -3
b2 = -1
c1 = 10
c2 = 9
Now, here
a1/a2 = 6/2 = 3
b1/b2 = -3/-1 = 3
c1/c2 = 10/9
As, here
Hence, the given pairs of equations have no solution and the lines are parallel and never intersect each other.
Solution:
In the given equations,
a1 = 3
a2 = 2
b1 = 2
b2 = -3
c1 = -5
c2 = -7
Now, here
a1/a2 = 3/2
b1/b2 = 2/-3
c1/c2 = -5/-7
As, here
Hence, the given pairs of equations have a unique solution and the lines intersect each other at exactly one point.
Pair of linear equations are CONSISTENT.
Solution:
In the given equations,
a1 = 2
a2 = 4
b1 = -3
b2 = -6
c1 = -8
c2 = -9
Now, here
a1/a2 = 2/4 = 1/2
b1/b2 = -3/-6 = 1/2
c1/c2 = -8/-9 = 8/9
As, here
Hence, the given pairs of equations have no solution and the lines are parallel and never intersect each other.
Pair of linear equations are INCONSISTENT.
Solution:
In the given equations,
a1 = 3/2
a2 = 9
b1 = 5/3
b2 = -10
c1 = -7
c2 = -14
Now, here
c1/c2 = -7/-14 = 1/2
As, here
Hence, the given pairs of equations have a unique solution and the lines intersect each other at exactly one point.
Pair of linear equations are CONSISTENT.
Solution:
In the given equations,
a1 = 5
a2 = -10
b1 = -3
b2 = 6
c1 = -11
c2 = 22
Now, here
a1/a2 = 5/-10 = -1/2
b1/b2 = -3/6 = -1/2
c1/c2 = -11/22 = -1/2
As, here
Hence, the given pairs of equations have infinite many solutions and the lines are coincident.
Pair of linear equations are CONSISTENT.
Solution:
In the given equations,
a1 = 4/3
a2 = 2
b1 = 2
b2 = 3
c1 = -8
c2 = -12
Now, here
b1/b2 = 2/3
c1/c2 = -8/-12 = 2/3
As, here
Hence, the given pairs of equations have infinite many solutions and the lines are coincident.
Pair of linear equations are CONSISTENT.
Solution:
In the given equations,
a1 = 1
a2 = 2
b1 = 1
b2 = 2
c1 = -5
c2 = -10
Now, here
a1/a2 = 1/2
b1/b2 = 1/2
c1/c2 = -5/-10 = 1/2
As, here
Hence, the given pairs of equations have infinite many solutions and the lines are coincident.
Pair of linear equations are CONSISTENT.
x + y = 5 -(1)
2x + 2y = 10 -(2)
So, to construct a graph, we need to find at least two solutions of the given equation.
For equation (1)
x + y = 5, So, we can use the following table to draw the graph:
x y 0 5 5 0 For equation (2)
2x + 2y = 10, So, we can use the following table to draw the graph:
x y 0 5 5 0 The graph will be as follows for Equation (1) and (2):
Solution:
In the given equations,
a1 = 1
a2 = 3
b1 = -1
b2 = -3
c1 = -8
c2 = -16
Now, here
a1/a2 = 1/3
b1/b2 = 1/3
c1/c2 = -8/-16 = 1/2
As, here
Hence, the given pairs of equations have no solution and the lines are parallel and never intersect each other.
Pair of linear equations are INCONSISTENT.
Solution:
In the given equations,
a1 = 2
a2 = 4
b1 = 1
b2 = -2
c1 = -6
c2 = -4
Now, here
a1/a2 = 2/4 = 1/2
b1/b2 = 1/-2
c1/c2 = -6/-4 = 3/2
As, here
Hence, the given pairs of equations have a unique solution and the lines intersect each other at exactly one point.
Pair of linear equations are CONSISTENT.
2x + y – 6 = 0 -(1)
4x – 2y – 4 = 0 -(2)
So, to construct a graph, we need to find at least two solutions of the given equation.
For equation (1)
2x + y – 6 = 0, So, we can use the following table to draw the graph:
x y 0 6 3 0 For equation (2)
4x – 2y – 4 = 0, So, we can use the following table to draw the graph:
x y 0 -2 1 0 The graph will be as follows for Equation (1) and (2):
Now, from the graph, we can conclude the given lines intersect each other at point (2, 2).
Solution:
In the given equations,
a1 = 2
a2 = 4
b1 = -2
b2 = -4
c1 = -2
c2 = -5
Now, here
a1/a2 = 2/4 = 1/2
b1/b2 = -2/-4 = 1/2
c1/c2 = -2/-5 = 2/5
As, here
Hence, the given pairs of equations have no solution and the lines are parallel and never intersect each other.
Pair of linear equations are INCONSISTENT.
Solution:
Let's take,
length = x
breadth = y
Half the perimeter of a rectangular garden = = x + y
According to the given conditions,
x = y + 4 -(1)
x + y = 36 -(2)
So, to construct a graph, we need to find at least two solutions of the given equation.
For equation (1)
x = y + 4, So, we can use the following table to draw the graph:
x y 0 -4 4 0 For equation (2)
x + y = 36, So, we can use the following table to draw the graph:
x y 0 36 36 0 The graph will be as follows for Equation (1) and (2):
Now, from the graph, we can conclude the given lines intersect each other at point (20, 16).
Hence, length is 20 m and breadth is 16 m of rectangle.
Solution:
Linear equation in two variables such that pair so formed is intersecting lines, so it should satisfy the given conditions
By rearranging, we get
Hence, the required equation should not be in ratio of 2/3
Hence, another equation can be 2x – 9y + 9 = 0
where the ratio is 2/-9
and,
Solution:
Linear equation in two variables such that pair so formed is parallel lines, so it should satisfy the given conditions
By rearranging, we get
Hence, the required equation a2/b2 should be in ratio of 2/3 and b2/c2 should not be equal to 3/-8
Hence, another equation can be 4x + 6y + 9 = 0
where the ratio a2/b2 is 2/3
and,
Solution:
Linear equation in two variables such that pair so formed is parallel lines, so it should satisfy the given conditions
By rearranging, we get
Hence, the required equation a2/b2 should be in ratio of 2/3 and b2/c2 should be equal to 3/-8
Hence, another equation can be 4x + 6y -16 = 0
where the ratio a2/b2 is 2/3
and, b2/c2 = 3/-8
Solution:
x – y + 1 = 0 -(1)
3x + 2y – 12 = 0 -(2)
So, to construct a graph, we need to find at least two solutions of the given equation.
For equation (1)
x – y + 1 = 0, So, we can use the following table to draw the graph:
x y 0 -1 1 0 For equation (2)
3x + 2y – 12 = 0, So, we can use the following table to draw the graph:
x y 0 6 4 0 The graph will be as follows for Equation (1) and (2):
Now, from the graph, we can conclude the given lines intersect each other at point (2, 3), and x-axis at (−1, 0) and (4, 0).
Hence, the vertices of the triangle are (2, 3), (−1, 0), and (4, 0).
Read More:
Exercise 3.2 focuses on solving pairs of linear equations using the substitution method. This method involves expressing one variable in terms of the other from one equation and substituting it into the second equation. Students learn to apply this technique to various word problems, translating real-life scenarios into linear equations and solving them. The exercise emphasizes the importance of interpreting solutions in the context of the original problem and checking the validity of the answers.
