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Question
Prove that the points (3, 0), (6, 4) and (-1, 3) are the vertices of a right-angled isosceles triangle.
Solution 1
Let A(3, 0), B(6, 4) and C(–1, 3) be the given points
Now,
AB= `sqrt((6-3)^2+(4-0)^2)=sqrt(3^2+4^2)=sqrt(9+6)=sqrt25`
BC= `sqrt((-1-6)^2+(3-4)^2)=sqrt((-7)^2+(-1)^2)=sqrt(49+1)=sqrt50`
AC= `sqrt((-1-3)^2+(3-0)^2)=sqrt((-4)^2+3^2)=sqrt(16+9)=sqrt25`
∴ AB = AC
AB2 =`(sqrt25)=25`
BC2= `(sqrt50)=50`
AC2= `(sqrt25)=25`
∴ AB2 + AC2 = BC2
Thus, ΔABC is a right-angled isosceles triangle.
Solution 2
The distance d between two points `(x_1, y_1)` and `(x_2, y_2)` is given by the formula.
`d = sqrt((x_1 - x_2)^2 + (y_1 - y_2)^2)`
In an isosceles triangle there are two sides which are equal in length.
Here the three points are A(3, 0), B(6, 4) and C(−1, 3).
Let us check the length of the three sides of the triangle.
`AB = sqrt((3 - 6)^2 + (0 - 4)^2)`
`= sqrt((-3)^2 + (-4)^2)`
`= sqrt(9 + 16)`
`AB = sqrt(25)`
`BC = sqrt((6 + 1)^2 + (4 - 3)^2)`
`= sqrt((7)^2 + (1)^2)`
`= sqrt(49 + 1)`
`BC = sqrt50`
`AC = sqrt((3 + 1)^2 + (0 - 3)^2)`
`= sqrt((4)^2 + (-3)^2)`
`= sqrt(16 - 9)`
`AC = sqrt25`
Here, we see that two sides of the triangle are equal. So the triangle formed should be an isosceles triangle.
We can also observe that `BC^2 = AC^2 + AB^2`
Hence proved that the triangle formed by the three given points is an isosceles triangle.
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