Systems of Equations in Three Variables

See Systems of Equations in Two Variables for more information on systems of equations.

Examples

• One solution: ${\displaystyle x+y+z=3}$, ${\displaystyle 2x-3y+z=0}$, and ${\displaystyle -5x-5y+23z=13}$. ${\displaystyle x+y+z=3\implies 5x+5y+5z=15}$. We can add this to the third equation to get ${\displaystyle 28z=28}$, which means z = 1. So, the first two equations can be rewritten as ${\displaystyle x+y=2}$ and ${\displaystyle 2x-3y=-1}$. Using substitution, elimination, or graphing, we can calculate that x = 1 and y = 1 with these two equations. Thus, the solution to the system is (x, y, z) = (1, 1, 1).
• No solutions: ${\displaystyle x+y+z=1}$, ${\displaystyle x+y+z=2}$, ${\displaystyle x+y+z=3}$. These equations represent three parallel planes, and there is no x, y, and z that satisfy all three equations simultaneously. So, this system has no solutions.
• Infinite solutions: ${\displaystyle x+y=z}$, ${\displaystyle x+y=2z}$, ${\displaystyle x+y=4z}$. x + y = 0 for all x and y such that y = -x. Since ${\displaystyle z=2z=4z}$ when z = 0, this system has an infinite number of solutions of the form (x, -x, 0) where x can be any real number. (for example, ${\displaystyle (3,-3,0),((-1/2),(1/2),0),(\pi ,-\pi ,0)}$, etc.).

Resources

• Linear Systems with Three Variables, Paul's Online Notes (Lamar Math)