104 LearnersLast updated on July 16th, 2025
Simultaneous Equations
In simultaneous equations, two or more algebraic equations with common variables are solved simultaneously. In the equations, x + y = 2 and x - y = 7, both x and y are the common unknown variables, and the equations can be solved together to find the value of these variables. In this article, we will learn more about simultaneous equations and the ways to solve them.
What are Simultaneous Equations?
Simultaneous equations are two or more mathematical equations that have the same unknown variables, such as x, y, etc. These equations are linked together, and we solve for the variables that solve all the equations at the same time. The simultaneous equations have a common solution. Given below are some examples of simultaneous equations.
(i) 2x - 4y = 4
5x + 8y = 3
(ii) 2a - 3b + c = 9
a + b + c = 2
a - b - c = 9
How to Solve Simultaneous Equations?
While solving simultaneous equations, we have to choose the right method depending on the type of equations we have. The two common types of equations involved in simultaneous systems are:
- Linear Equations
- Quadratic Equations
Linear Equations: In an equation, the variables like x and y that do not have any squares or higher powers are called linear equations. When we have two linear equations together, it is called a system of linear simultaneous equations. Examples of linear equations include x + y = 10, x - y = 2. We can solve these equations using the elimination or substitution method.
Quadratic Equations: The equation in which the power of the variable is raised to two or squared is known as a quadratic equation. x2 + x + 2 is an example of a quadratic equation. When we have one quadratic equation and one linear equation, it is called a quadratic simultaneous equation.
What are the Processes for Solving Simultaneous Equations?
Finding the exact values of the variables that make both equations true at the same time is simultaneous equations. There are three main methods for solving simultaneous equations, they are:
- Substitution Method
- Elimination Method
- Graphical Method
Substitution Method
In the substitution method, we choose one equation and make one variable the subject; we will find out the value of the other variable, like x = something. Put that x into another equation to find the value of the second variable, and then find the value of the first variable.
Example: Solve x + y = 4 and 2x - 3y = 9
Solution: We can derive the value of x from the first equation.
x + y = 4
x = 4 - y
Put the value of x in the second equation,
2x - 3y = 9
2(4 -y) - 3y = 9
8 - 2y - 3y = 9
8 - 5y = 9
-5y = 9 - 8
-5y = 1
y = -⅕
Now put y = -⅕ in the first equation,
x + y = 4
x - ⅕ = 4
x = 4 + ⅕
x = 21/5
Therefore, the value of x = 215, y = -⅕.
Elimination Method
In the elimination method, we make the coefficients the same and then add or subtract the equations to cancel one variable. Then, solve for one variable and substitute to get the value for the other variable.
Example: Solve 2x - 5y = 3 and 3x - 2y = 5
Solution: We can make the coefficient of y the same.
Multiply 2 by the first equation
4x - 10y = 6
Multiply 5 by the second equation
15x - 10y = 25
Now subtract both
(15x - 10y) - (4x - 10y) = 25 - 6
11x = 19
x = 19/11
Now use the value of x in any one of the equations which was given at first
2x - 5y = 3
2(19/11) - 5y = 3
38/11 - 5y = 3
-5y = 3 - 38/11
-5y = 33 - 38 /11
-5y = -5/11
-y = -5/11 ÷ 5
-y = -1/11
y = 1/11
The values are, x = 19/11, y = 1/11
Graphical Method
In the graphical method, we draw both equations as lines on a graph, and the point of intersection is the solution. There are three possible outcomes in a graphical method: they are
- One point of intersection - When the system has only one solution.
- Lines overlap completely - When the lines overlap completely on all the points in a system, then the system has infinite solutions.
- No point of intersection: When the lines are parallel, the system has no solution.
Example: Solve x + y = 10, x - y = 4
Solution: For x + y = 10
If x = 0, y = 10
If x = 10, y = 0.
Points are: (0, 10) and (10, 0)
For x - y = 4
If x = 0, y = -4
If x = 4, y = 0
Points are: (0, -4) and (4,0)
When we draw both the lines on the graph, they meet at (7, 3)
The solution is x = 7, y = 3.
Real Life Applications of Simultaneous Equations
Simultaneous equations are not only used in math problems and equations, but also it is used in many real-life applications. Here are a few of the real-life applications.
- Business and Finance: In business, simultaneous equations are used to calculate the costs, profits, or pricing of the products. For example, a shop sells two types of T-shirts. The total sales from both types is $500, and 40 T-shirts were sold in total. Simultaneous equations help in figuring out how many of each type were sold.
- Engineering: In engineering, it is used to solve unknowns in electrical circuits, forces, or mechanical systems. Ohm’s law and Kirchhoff’s law in electrical engineering give equations for current and voltage in circuits. Simultaneous equations are used to find the current through each part of a complex circuit.
- Computer Science and Coding: Simultaneous equations are used for data analysis, and graphics like 3D modelling. It helps to determine where two objects in a game or animation will collide or intersect.
Common Mistakes and How to Avoid Them in Simultaneous Equations
Students often make mistakes while solving simultaneous equations. Here are some common mistakes that students make, along with the tips to avoid those mistakes.
Mistake 1
Mistake in signs
Forgetting to change the sign while subtracting the equations. Always be careful with signs. If x + y = 2, while finding the value of x, the y on the left side moves to the right side with a change in sign and becomes x = 2 - y, but students sometimes won’t change the sign and write it as x = 2 + y.
Mistake 2
Solving for one variable
Students sometimes find only the value of x and stop without calculating for y, which is wrong. Always find the solution for all the variables that were given. Substitute the value of the variable that we find in the equation to get the values of the other variables.
Mistake 3
Matching the wrong coefficient
While eliminating variables without making their coefficients equal to match the numbers, we should multiply the equations. When using the elimination method for 2x + 3y = 12 and 3x + 2y = 13, we need to eliminate one variable, so we have to multiply both equations by numbers to eliminate the variable and match the coefficients.
Mistake 4
Plotting the graph wrongly
Plotting the points incorrectly gives the wrong solution. First, make the values and plot at least two points for each equation carefully, and plot those points on the graph. The equation is x + y = 6, so the points will be like if x =6, y = 0, and if x = 0, y = 6. So the points are (6, 0) and (0, 6).
Mistake 5
Mixing up like terms
Students might add the unlike terms together in the equations. Always add the like terms. Only combine the terms that have the same variable and powers, not the same degree with different variables.
For example, add x2 term with the other x2 term, not with y2 term.
Solved Examples of Simultaneous Equations
Problem 1
Solve x + y = 10 and x - y = 4
x = 7, y = 3.
Explanation
We can use the elimination method to find the solution to the given equations. While adding both equations, both the y terms will get eliminated.
Adding x + y = 10 and x - y = 4
(x + y) + (x - y) = 10 + 4
x + x = 14
2x = 14
x = 14/2
x = 7
Apply the value of x in the first equation,
x + y = 10
7 + y = 10
y = 10 - 7
y = 3
The value of x = 7 and y = 3
Problem 2
Solve x = 2y and x + y = 9.
x = 6, y = 3
Explanation
We can use the substitution method to solve these equations. We can use the value of x = 2y in the second equation.
x + y = 9
2y + y = 9
3y = 9
y = 9/3
y = 3
Substitute the value of y in the first equation,
x = 2y
x = 2 × 3
x = 6
Therefore, the values are x = 6, y = 3
Problem 3
Solve x + y = 4 and 2x - 3y = 9
x = 21/5, y = -⅕
Explanation
From the first equation, we get the value of x.
x + y = 4
x = 4 - y
Substitute this into the second equation,
2x - 3y = 9
2(4 - y) - 3y = 9
8 - 2y - 3y = 9
8 - 5y = 9
-5y = 9 - 8
-5y = 1
y = -1/5
Now substitute the y value into the equation,
x = 4 - y
x = 4 - (-1/5)
x = 20 + 1/ 5
x = 21/5
Problem 4
Solve x + y = 6 and x - y = 2
x = 4 and y = 2.
Explanation
Add both equations
(x + y) + (x - y) = 6 + 2
2x = 8
x = 8/2
x = 4
Substitute x = 4 in the first equation
X + y = 6
4 + y = 6
y = 6 - 4
y = 2
Problem 5
Solve x = 5 and x + y = 12.
x = 5 and y = 7
Explanation
Here, the value of x is already given; we have to substitute it to the second equation.
X + y = 12
5 + y = 12
y = 12 - 5
y = 7.
FAQs of Simultaneous Equations
1.What are simultaneous equations?
2.How many solutions can simultaneous equations have?
3.What are the main methods of solving simultaneous equations?
4.Do we always need two equations to solve?
5.What is the solution to a simultaneous equation?
6.How does learning Algebra help students in United Kingdom make better decisions in daily life?
7.How can cultural or local activities in United Kingdom support learning Algebra topics such as Simultaneous Equations?
8.How do technology and digital tools in United Kingdom support learning Algebra and Simultaneous Equations?
9.Does learning Algebra support future career opportunities for students in United Kingdom?
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Jaskaran Singh Saluja
About the Author
Jaskaran Singh Saluja is a math wizard with nearly three years of experience as a math teacher. His expertise is in algebra, so he can make algebra classes interesting by turning tricky equations into simple puzzles.
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: He loves to play the quiz with kids through algebra to make kids love it.
