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Question
Determine whether the point is collinear.
P(–2, 3), Q(1, 2), R(4, 1)
Solution
By distance formula,
\[\mathrm{d}(\mathrm{P},\mathrm{Q})=\sqrt{\left(x_{2}-x_{1}\right)^{2}+\left(y_{2}-y_{1}\right)^{2}}\]
= \[\sqrt{\left[1- (-2)\right]^{2}+\left(2 - 3\right)^{2}}\]
= \[\sqrt{(1+ 2)^{2}+(2 - 3)^2}\]
= \[\sqrt{(3)^{2}+(- 1)^2}\]
= \[\sqrt{9 + 1}\]
∴ \[\mathrm{d}(\mathrm{P},\mathrm{Q}) = \sqrt{10}\] ...(i)
\[\mathrm{d}(\mathrm{Q},\mathrm{R})=\sqrt{\left(x_{2}-x_{1}\right)^{2}+\left(y_{2}-y_{1}\right)^{2}}\]
= \[\sqrt{(4 - 1)^{2} + (1 - 2)^{2}}\]
= \[\sqrt{3^{2} + (-1)^2}\]
= \[\sqrt{9 + 1}\]
∴ \[\mathrm{d}(\mathrm{Q},\mathrm{R}) = \sqrt{10}\] ...(ii)
\[\mathrm{d}(\mathrm{P},\mathrm{R})=\sqrt{\left(x_{2}-x_{1}\right)^{2}+\left(y_{2}-y_{1}\right)^{2}}\]
= \[\sqrt{[4 - (-2)]^{2} + (1 - 3)^{2}}\]
= \[\sqrt{6^{2} + (-2)^2}\]
= \[\sqrt{36 + 4}\]
= \[\sqrt{40}\]
= \[2\sqrt{10}\]
∴ \[\mathrm{d}(\mathrm{P},\mathrm{R}) = 2\sqrt{10}\] ...(iii)
On adding (i) and (ii),
\[\mathrm{d}(\mathrm{P},\mathrm{Q}) + \mathrm{d}(\mathrm{Q},\mathrm{R}) = \sqrt{10} + \sqrt{10} = 2\sqrt{10}\]
∴ d(P, Q) + d(Q, R) = d(P, R) …[From (iii)]
∴ Points P, Q and R are collinear.
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