विभाजन-सूत्र: Difference between revisions

The Section formula is used to find the coordinates of the point that divides a line segment (externally or internally) into some ratio.

Derivation of Section Formula

Fig 1 - Section Formula

Consider any two points ${\displaystyle A(x_{1},y_{1})}$ and ${\displaystyle B(x_{2},y_{2})}$ and assume that ${\displaystyle P(x,y)}$ divides ${\displaystyle AB}$ internally in the ratio ${\displaystyle m_{1}:m_{2}}$ ,

i.e., ${\displaystyle {\frac {PA}{PB}}={\frac {m_{1}}{m_{2}}}}$ (see Fig. 1).

Draw ${\displaystyle AC,PD,BE}$ perpendicular to the ${\displaystyle x-}$axis. Draw ${\displaystyle AR,PQ}$ parallel to the ${\displaystyle x-}$axis. Then, by the ${\displaystyle AA}$ similarity criterion,

${\displaystyle \bigtriangleup PAR\sim \bigtriangleup BPQ}$

${\displaystyle {\frac {PA}{PB}}={\frac {AR}{PQ}}={\frac {PR}{BQ}}.......(1)}$

${\displaystyle AR=CD=OD-OC=x-x_{1}}$

${\displaystyle PQ=DE=OE-OD=x_{2}-x}$

${\displaystyle PR=PD-RD=PD-AC=y-y_{1}}$

${\displaystyle BQ=BE-QE=BE-PD=y_{2}-y}$

Substituting in ${\displaystyle (1)}$ we get

${\displaystyle {\frac {m_{1}}{m_{2}}}={\frac {x-x_{1}}{x_{2}-x}}={\frac {y-y_{1}}{y_{2}-y}}}$

Taking ${\displaystyle {\frac {m_{1}}{m_{2}}}={\frac {x-x_{1}}{x_{2}-x}}}$

${\displaystyle m_{1}x_{2}-m_{1}x=m_{2}x-m_{2}x_{1}}$

${\displaystyle m_{1}x_{2}+m_{2}x_{1}=m_{2}x+m_{1}x}$

${\displaystyle m_{1}x_{2}+m_{2}x_{1}=x(m_{2}+m_{1})}$

${\displaystyle x={\frac {m_{1}x_{2}+m_{2}x_{1}}{m_{1}+m_{2}}}}$

Taking ${\displaystyle {\frac {m_{1}}{m_{2}}}={\frac {y-y_{1}}{y_{2}-y}}}$

${\displaystyle m_{1}y_{2}-m_{1}y=m_{2}y-m_{2}y_{1}}$

${\displaystyle m_{1}y_{2}+m_{2}y_{1}=m_{2}y+m_{1}y}$

${\displaystyle m_{1}y_{2}+m_{2}y_{1}=y(m_{2}+m_{1})}$

${\displaystyle y={\frac {m_{1}y_{2}+m_{2}y_{1}}{m_{1}+m_{2}}}}$

So, the coordinates of the point ${\displaystyle P(x,y)}$ which divides the line segment joining the points ${\displaystyle A(x_{1},y_{1})}$ and ${\displaystyle B(x_{2},y_{2})}$, internally, in the ratio ${\displaystyle m_{1}:m_{2}}$ are ${\displaystyle \left({\frac {m_{1}x_{2}+m_{2}x_{1}}{m_{1}+m_{2}}},{\frac {m_{1}y_{2}+m_{2}y_{1}}{m_{1}+m_{2}}}\right)}$ is the section formula.

Example

Find the coordinates of the point which divides the line segment joining the points ${\displaystyle (4,-3)}$ and ${\displaystyle (8,5)}$ in the ratio ${\displaystyle 3:1}$ internally.

Solution : Let ${\displaystyle P(x,y)}$ be the required point.

${\displaystyle x_{1}=4,y_{1}=-3}$

${\displaystyle x_{2}=8,y_{2}=5}$

${\displaystyle m_{1}=3,m_{2}=1}$

Using the section formula, we get

${\displaystyle x={\frac {m_{1}x_{2}+m_{2}x_{1}}{m_{1}+m_{2}}}}$

${\displaystyle x={\frac {3\times 8+1\times 4}{3+1}}=7}$

${\displaystyle y={\frac {m_{1}y_{2}+m_{2}y_{1}}{m_{1}+m_{2}}}}$

${\displaystyle y={\frac {3\times 5+1\times -3}{3+1}}=3}$

Therefore ${\displaystyle (7,3)}$ is the required point.