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प्रश्न
If Q (0, 1) is equidistant from P (5, − 3) and R (x, 6), find the values of x. Also find the distance QR and PR.
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उत्तर १
PQ = QR
= `sqrt((5-0)^2+(-3-1)^2)`
= `sqrt((0-x)^2+(1-6)^2)`
= `sqrt((5)^2+(-4)^2)`
= `sqrt((-x)^2+(-5)^2)`
= `sqrt(25+16) `
= `sqrt(x^2+25)`
41 = x2 + 25
16 = x2
x = ±4
Therefore, point R is (4, 6) or (−4, 6).
When point R is (4, 6),
PR = `sqrt((5-4)^2+(-3-6)^2)`
= `sqrt((1^2+(-9)^2)) `
= `sqrt(1+81)`
= `sqrt82`
QR = `sqrt((0-4)^2+(1-6)^2)`
= `sqrt((-4)^2+(-5)^2)`
= `sqrt(16+25)`
= `sqrt41`
When point R is (−4, 6),
PR = `sqrt((5-(-4))^2+(-3-6)^2)`
= `sqrt((9)^2+(-9)^2)`
= `sqrt(81+81)`
= `9sqrt2`
QR = `sqrt((0-(-4))^2+(1-6)^2)`
= `sqrt((4)^2+(-5)^2)`
= `sqrt(16+25)`
= `sqrt41`
उत्तर २
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)`
The three given points are Q (0, 1), P(5, −3) and R(x, 6).
Now let us find the distance between 'P' and 'Q'.
PQ = `sqrt((5 - 0)^2 + (-3-1)^2)`
= `sqrt((5)^2 + (-4)^2)`
= `sqrt(25 + 16)`
PQ = `sqrt(41)`
Now, let us find the distance between ‘Q’ and ‘R’.
QR = `sqrt((0 - x)^2 + (1- 6)^2)`
QR = `sqrt((-x)^2 + (-5)^2)`
It is given that both these distances are equal. So, let us equate both the above equations,
PQ = QR
`sqrt(41) = sqrt((-x)^2 + (-5)^2)`
Squaring on both sides of the equation we get,
41 = (-x)2 + (-5)2
41 = x2 + (-5)2
41 = x2 + 25
x2 = 16
x = ±4
Hence, the values of ‘x’ are 4 or (-4).
Now, the required individual distances,
QR = `sqrt((0 + 4)^2 + (1 - 6)^2)`
= `sqrt((+-4)^2 + (-5)^2)`
= `sqrt(16 + 25)`
QR = `sqrt(41)`
Hence, the length of ‘QR’ is `sqrt(41)` units
For ‘PR’ there are two cases. First when the value of ‘x’ is 4,
PR = `sqrt(82)`
Then when the value of ‘x’ is -4,
PR = `sqrt((5 + 4)^2 + (-3 -6)^2)`
= `sqrt((9)^2 + (-9)^2)`
= `sqrt(81 + 81)`
PR = `9sqrt2`
Hence, the length of 'PR' can be `sqrt(82)` or `9sqrt(2)` units
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