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The locus of the foot of the perpendicul...

The locus of the foot of the perpendicular from the center of the hyperbola `x y=1` on a variable tangent is `(x^2-y^2)=4x y` (b) `(x^2-y^2)=1/9` `(x^2-y^2)=7/(144)` (d) `(x^2-y^2)=1/(16)`

A

`(x^(2)-y^(2))^(2)=4xy`

B

`(x^(2)+y^(2))^(2)=2xy`

C

`(x^(2)+y^(2))=4xy`

D

`(x^(2)+y^(2))^(2)=4xy`

Text Solution

Verified by Experts

The correct Answer is:
D
Let the foot of perpenicular from O(0, 0) to the hyperbola be `P(h,k)`
Slope of `OP=(k)/(h)`
Then the equation of tangent to the hypebola is
`y-k=-(h)/(k)(x-k)` ltBrgt `"or "hx+ky=h^(2)+k^(2)`
Solving it with xy = 1, we have
`hx+(k)/(x)=h^(2)+k^(2)`
`"or "hx^(2)-(h^(2)+k^(2))x+k=0`
This equation must have real and equal roots. Hence,
D = 0
`"or "(h^(2)+k^(2))^(2)-4hk=0`
`"or "(x^(2)+y^(2))^(2)=4xy`
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CENGAGE-HYPERBOLA-Exercise (Single)
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  3. For hyperbola whose center is at (1, 2) and the asymptotes are paralle...

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  11. The center of a rectangular hyperbola lies on the line y=2xdot If one ...

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  12. The equation of a rectangular hyperbola whose asymptotes are x=3 and y...

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  13. If tangents O Q and O R are dawn to variable circles having radius r a...

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  14. Four points are such that the line joining any two points is perpen...

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  15. If S1a n dS2 are the foci of the hyperbola whose length of the transve...

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  16. Suppose the circle having equation x^2+y^2=3 intersects the rectangula...

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  17. The equation of the chord joining two points (x(1),y(1)) and (x(2),y(2...

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