Geometry: Lines
Different descriptions of a line
We have already seen that the equation of a line is uniquely determined by two distinct points on the line. We have also seen that the graph of a linear function is a straight line and we described two different ways of writing the equation of a line. We will recall these different descriptions and add a third equation for a line.
#y=-{{2}\over{27}}\cdot x+{{1}\over{12}}#
Because the coefficient of #y# in the given equation is not equal to zero, it's posible to rewrite the equation as #y=a\cdot x+b#. We get to this form using reduction:
\[\begin{array}{rcl}
-{{2}\over{9}}\cdot x-3\cdot y&=&-{{1}\over{4}}\\&&\phantom{xxx}\blue{\text{the given equation}}\\
-3\cdot y&=&{{2}\over{9}}\cdot x-{{1}\over{4}}\\&&\phantom{xxx}\blue{{{2}\over{9}}\cdot x\text{ added}\text{ on both sides}}\\
y&=&-{{2}\over{27}}\cdot x+{{1}\over{12}}\\&&\phantom{xxx}\blue{\text{left and right hand side divided by } -3 \text{, the coeffient of } y}
\end{array}\]
Because the coefficient of #y# in the given equation is not equal to zero, it's posible to rewrite the equation as #y=a\cdot x+b#. We get to this form using reduction:
\[\begin{array}{rcl}
-{{2}\over{9}}\cdot x-3\cdot y&=&-{{1}\over{4}}\\&&\phantom{xxx}\blue{\text{the given equation}}\\
-3\cdot y&=&{{2}\over{9}}\cdot x-{{1}\over{4}}\\&&\phantom{xxx}\blue{{{2}\over{9}}\cdot x\text{ added}\text{ on both sides}}\\
y&=&-{{2}\over{27}}\cdot x+{{1}\over{12}}\\&&\phantom{xxx}\blue{\text{left and right hand side divided by } -3 \text{, the coeffient of } y}
\end{array}\]
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