A linear equation with two unknowns

Systems of linear equations: An equation of a line

A linear equation with two unknowns

Linear equation with two unknowns

A linear equation with two unknowns #{x}# and #{y}# is of the form #\blue p \cdot {x} + \green q \cdot {y} +\purple r=0#, in which #\blue p#, #\green q# and #\purple r# are numbers.

Example

\[\begin{array}{rcl} \blue 3 \cdot {x}+\green 5 \cdot {y}+\purple 5&=&0 \end{array}\]

Equation unequal to 0

We have defined the equation with two unknowns \[\blue p \cdot {x} + \green q \cdot {y} +\purple r=0\] Please note that linear equations with two unknowns of the form \[\blue{p_1} \cdot {x} + \green{q_1} \cdot {y} +\purple {r_1}=\blue{p_2} \cdot {x} +\green{q_2} \cdot {y} + \purple{r_2}\] can be rewritten to the above form by subtracting #\blue{p_2} \cdot {x}#, #\green{q_2} \cdot {y}# and #\purple {r_2}# from both sides of the equation.

Example

\[\begin{array}{rcl} \blue 3 \cdot {x}+\green{5} \cdot {y}+\purple 6&=& \green{-4} \cdot {y}+\purple{5}-\blue{2} \cdot {x} \\
\\
\blue 5\cdot x+\green 9 \cdot y + \purple 1&=&0
\end{array}\]

A solution of a linear equation with two unknowns #\blue x#, #\green y# is a point#\rv{\blue x,\green y}#, for which the equation is true.

An equation is true when you substitute the value of #\blue x# and #\green y# of that point in the equation, and the left and right hand side of the equation are equal.

Example

\[3\cdot \blue{x}+5 \cdot \green{y}+5=0 \]

The point #\rv{\blue 0,-\green{1}}# is a solution:

\[3\cdot \blue{0}+5 \cdot \green{-1}+5=0\]

Take a look at the linear equation with two unknowns: \[9\cdot x-7\cdot y+3=0\] Is the point #\rv{6, {{57}\over{7}}}# a solution to the equation?

Yes

After all, to determine if the point #\rv{6, {{57}\over{7}}}# is a solution to the equation, we enter the point in the equation. If the equation is true, then the point is a solution. If the equation is not true, then the point is not a solution to the equation. In this case we have:
\[9\cdot 6-7\cdot {{57}\over{7}}+3=0\]
The equation is true, hence # \rv{6, {{57}\over{7}}}# is a solution to the equation.

New example