Difference between revisions of "Linear equation"

Revision as of 09:07, 4 December 2008

Linear equations are any algebraic equations where both sides of the equation are polynomials or monomials of the first degree.

Single-Variable Equations

Single-variable linear equations can always be expressed in the form: $ax+b=0$

where $a$ and $b$ are constants and $x$ is the variable.

From this form, they can be solved with the following steps:

1. subtract $b$ from both sides.

2. divide $a$ from both sides.

Two-Variable Equations

Two-variable linear equations can always be expressed in the form: $y=mx+b$

Where $y$ and $x$ are variables and $m$ and $b$ are constants.

Two-variable linear equations can be drawn as a straight line on a coordinate plane. $m$ can be defined as the slope and $b$ can be defined as the y-intercept

@@ Line 1: / Line 1: @@
 Linear equations are any algebraic equations where both sides of the equation are [[polynomials]] or [[monomials]] of the first [[degree]].
-== single-variable equations ==
+== Single-Variable Equations ==
 Single-variable linear equations can '''always''' be expressed in the form:
@@ Line 14: / Line 14: @@
 . divide <math>a</math> from both sides.
-== two-variable equations ==
+== Two-Variable Equations ==
 Two-variable linear equations can '''always''' be expressed in the form:

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Difference between revisions of "Linear equation"

Revision as of 09:07, 4 December 2008

Single-Variable Equations

Two-Variable Equations