If one of varying central conic (hyperbo...

If one of varying central conic (hyperbola) is fixed in magnitude and position, prove that the locus of the point of contact of a tangent drawn to it from a fixed point on the other axis is a parabole.

Text Solution

Verified by Experts

Consider hyperbola `(x^(2))/(a^(2))-(y^(2))/(b^(2))=1,` where a is fixed.
Let the coordinate of point P on the hyperbola be `(a sec theta, b tan theta)-=(h,k)`.
Equation of tangent to hyperbola at point P is
`(x sec theta)/(2)-(y tan theta)/(b)=1" (1)"`
Let this tangent pass through fixed point (0, c) on conjugate axis.
`therefore" "-c tan theta=b" (2)"`
From a sec `theta=h and b tan theta=k` and using (2), we get
`(k)/(c)=-tan^(2)theta and (h^(2))/(a^(2))=sec^(2)theta`
Adding, we get
`(k)/(c)+(h^(2))/(a^(2))=1`
`rArr" "h^(2)=(a^(2))/(c)(c-k)`
Hence, required locus is `x^(2)=-(a^(2))/(c)(y-c)`, which is a parabola.

Topper's Solved these Questions

HYPERBOLA
CENGAGE ENGLISH|Exercise CONCEPT APPLICATION EXERCISE 7.1|3 Videos
HYPERBOLA
CENGAGE ENGLISH|Exercise CONCEPT APPLICATION EXERCISE 7.2|12 Videos
HYPERBOLA
CENGAGE ENGLISH|Exercise COMPREHENSION TYPE|2 Videos
HIGHT AND DISTANCE
CENGAGE ENGLISH|Exercise Archives|3 Videos
INDEFINITE INTEGRATION
CENGAGE ENGLISH|Exercise Multiple Correct Answer Type|2 Videos

Similar Questions

Explore conceptually related problems

Let the transverse axis ofa varying hyperbola be fixed with length of transverse axis being 2a. Then the locus of the point of contact of any tangent drawn to it from a fixed point on conjugate axis is

The points of contact of the tangents drawn from the point (4, 6) to the parabola y^(2) = 8x

Prove that the locus of a point that is equidistant from both axis is y=x.

The locus of a point at a distance 3 cm from a fixed point.

What is the locus of a point in space, which is always at a distance of 4 cm from a fixed point ?

The equation of the chord of contact of tangents drawn from a point (2,-1) to the hyperbola 16x^(2)-9y^(2)=144 , is

Show that the locus of a point equidistant from a fixed point is a circle with the fixed point as centre.

The locus of points at a distance 2 cm from a fixed line.

The locus of points inside a circle and equidistant from two fixed points on the circumference of the circle.

Prove that the tangent lines drawn from the outer point to the circle are equal? Or

CENGAGE ENGLISH-HYPERBOLA-SOLVED EXAMPLES

A variable line y=m x-1 cuts the lines x=2y and y=-2x at points Aa n d...
Text Solution
|
Let P be a point on the hyperbola x^2-y^2=a^2, where a is a parameter,...
Text Solution
|
Show that the midpoints of focal chords of a hyperbola (x^2)/(a^2)-(y^...
Text Solution
|
From the center C of hyperbola (x^2)/(a^2)-(y^2)/(b^2)=1 , perpendicul...
Text Solution
|
Semi transverse axis of hyperbola is 5. Tangent at point P and normal ...
Text Solution
|
The exhaustive set of values of alpha^2 such that there exists a tange...
Text Solution
|
Prove that the part of the tangent at any point of the hyperbola (x^2)...
Text Solution
|
If one of varying central conic (hyperbola) is fixed in magnitude and ...
Text Solution
|
If normal at P to a hyperbola of eccentricity e intersects its transve...
Text Solution
|
If the normal at a pont P to the hyperbola x^2/a^2 - y^2/b^2 =1 meets ...
Text Solution
|
(x-1)(y-2)=5 and (x-1)^2+(y+2)^2=r^2 intersect at four points A, B, C,...
Text Solution
|