Linear Simultaneous Equations

What are linear simultaneous equations?

When there are two unknowns (say x and y) in a problem, we need two equations to be able to find them both: these are called simultaneous equations
- you solve two equations to find two unknowns, x and y
  - for example, 3x + 2y = 11 and 2x - y = 5
  - the solutions are x = 3 and y = 1
If they just have x and y in them (no x² or y² or xy etc) then they are linear simultaneous equations

How do I solve linear simultaneous equations by elimination?

"Elimination" completely removes one of the variables, x or y
To eliminate the x's from 3x + 2y = 11 and 2x - y = 5
- Multiply every term in the first equation by 2
  - 6x + 4y = 22
- Multiply every term in the second equation by 3
  - 6x - 3y = 15
- Subtract the second result from the first to eliminate the 6x's, leaving 4y - (-3y) = 22 - 15, i.e. 7y = 7
- Solve to find y (y = 1) then substitute y = 1 back into either original equation to find x (x = 3)
Alternatively, to eliminate the y's from 3x + 2y = 11 and 2x - y = 5
- Multiply every term in the second equation by 2
  - 4x - 2y = 10
- Add this result to the first equation to eliminate the 2y's (as 2y + (-2y) = 0)
  - The process then continues as above
Check your final solutions satisfy both equations

How do I solve linear simultaneous equations by substitution?

"Substitution" means substituting one equation into the other
Solve 3x + 2y = 11 and 2x - y = 5 by substitution
- Rearrange one of the equation into y = ... (or x = ...)
  - For example, the second equation becomes y = 2x - 5
- Substitute this into the first equation (replace all y's with 2x - 5 in brackets)
  - 3x + 2(2x - 5) = 11
- Solve this equation to find x (x = 3), then substitute x = 3 into y = 2x - 5 to find y (y = 1)
Check your final solutions satisfy both equations

How do you use graphs to solve linear simultaneous equations?

Plot both equations on the same set of axes
- to do this, you can use a table of values or rearrange into y = mx + c if that helps
Find where the lines intersect (cross over)
- The x and y solutions to the simultaneous equations are the x and y coordinates of the point of intersection
e.g. to solve 2x - y = 3 and 3x + y = 7 simultaneously, first plot them both (see graph)
- find the point of intersection, (2, 1)
- the solution is x = 2 and y = 1

Solving Equations Graphically Notes Diagram 1, A Level & AS Level Pure Maths Revision Notes

How do I solve linear simultaneous equations from worded contexts?

EPS Notes fig2 (1), downloadable IGCSE & GCSE Maths revision notes

EPS Notes fig2 (2), downloadable IGCSE & GCSE Maths revision notes

Exam Tip

Always check that your final solutions satisfy the original simultaneous equations
- you will know immediately if you've got the right solutions or not

Worked example

Solve the simultaneous equations

5x + 2y = 11
4x - 3y = 18

Number the equations.

$\begin{array}{rcl} 5 x + 2 y & = & 11 \\ 4 x - 3 y & = & 18 \end{array}$ $\begin{array}{rcl} (1) \\ (2) \end{array}$

Make the y terms equal by multiplying all parts of equation (1) by 3 and all parts of equation (2) by 2.
This will give two 6y terms with different signs. The question could also be done by making the x terms equal by multiplying all parts of equation (1) by 4 and all parts of equation (2) by 5, and subtracting the equations.

$\begin{array}{rcl} 15 x + 6 y & = & 33 \\ 8 x - 6 y & = & 36 \end{array}$ $\begin{array}{rcl} (3) \\ (4) \end{array}$

The 6y terms have different signs, so they can be eliminated by adding equation (4) to equation (3).

$15 x + 6 y = 33 + (8 x - 6 y = 36) 23 x = 69$

Solve the equation to find x by dividing both sides by 23.

$\begin{array}{rcl} x & = & \frac{69}{23} = 3 \end{array}$

Substitute $x = 3$ into either of the two original equations.

$(1)$ $5 (3) + 2 y = 11$

Solve this equation to find y.

$\begin{array}{rcl} 15 + 2 y & = & 11 \\ 2 y & = & 11 - 15 \\ 2 y & = & - 4 \\ y & = & \frac{- 4}{2} = - 2 \end{array}$

Substitute x = 3 and y = - 2 into the other equation to check that they are correct

$\begin{array}{rcl} (2) \end{array}$ $\begin{array}{rcl} 4 x - 3 y & = & 18 \end{array}$
$\begin{array}{rcl} 4 (3) - 3 (- 2) & = & 18 \\ 12 - (- 6) & = & 18 \\ 18 & = & 18 \end{array}$

$x = 3, y = - 2$

Linear Simultaneous Equations (AQA GCSE Further Maths)

Revision Note