Advertisements
Advertisements
प्रश्न
Find the equation of the hyperbola whose focus is (a, 0), directrix is 2x − y + a = 0 and eccentricity = \[\frac{4}{3}\].
Advertisements
उत्तर
Let S be the focus and \[P\left( x, y \right)\] be any point on the hyperbola. Draw PM perpendicular to the directrix.
By definition:
SP = ePM
\[\Rightarrow\] \[\sqrt{(x - a )^2 + (y - 0 )^2} = \frac{4}{3}\left( \frac{2x - y + a}{\sqrt{5}} \right)\]
Squaring both the sides:
\[(x - a )^2 + (y )^2 = \frac{16}{9} \left( \frac{2x - y + a}{5} \right)^2 \]
\[ \Rightarrow x^2 - 2ax + a^2 + y^2 = \frac{16}{45}\left( 4 x^2 + y^2 + a^2 - 4xy - 2ya + 4xa \right)\]
\[ \Rightarrow 45 x^2 - 90ax + 45 a^2 + 45 y^2 = 64 x^2 + 16 y^2 + 16 a^2 - 64xy - 32ay + 64ax\]
\[ \Rightarrow 19 x^2 - 29 y^2 - 64xy - 32ay + 154ax - 29 a^2 = 0\]
∴ Equation of the hyperbola = \[19 x^2 - 29 y^2 - 64xy - 32ay + 154ax - 29 a^2 = 0\]
APPEARS IN
संबंधित प्रश्न
Find the equation of the hyperbola satisfying the given conditions:
Foci (±5, 0), the transverse axis is of length 8.
Find the equation of the hyperbola satisfying the given conditions:
Foci (0, ±13), the conjugate axis is of length 24.
Find the equation of the hyperbola whose focus is (0, 3), directrix is x + y − 1 = 0 and eccentricity = 2 .
Find the equation of the hyperbola whose focus is (1, 1), directrix is 3x + 4y + 8 = 0 and eccentricity = 2 .
Find the equation of the hyperbola whose focus is (1, 1) directrix is 2x + y = 1 and eccentricity = \[\sqrt{3}\].
Find the equation of the hyperbola whose focus is (2, −1), directrix is 2x + 3y = 1 and eccentricity = 2 .
Find the eccentricity, coordinates of the foci, equation of directrice and length of the latus-rectum of the hyperbola .
9x2 − 16y2 = 144
Find the eccentricity, coordinates of the foci, equation of directrice and length of the latus-rectum of the hyperbola .
3x2 − y2 = 4
Find the eccentricity, coordinates of the foci, equation of directrice and length of the latus-rectum of the hyperbola .
2x2 − 3y2 = 5.
Find the equation of the hyperbola, referred to its principal axes as axes of coordinates, in the distance between the foci = 16 and eccentricity = \[\sqrt{2}\].
Find the equation of the hyperbola whose vertices are (−8, −1) and (16, −1) and focus is (17, −1).
Find the equation of the hyperbola whose vertices are at (0 ± 7) and foci at \[\left( 0, \pm \frac{28}{3} \right)\] .
Find the equation of the hyperbola whose foci at (± 2, 0) and eccentricity is 3/2.
Find the equation of the hyperboala whose focus is at (5, 2), vertex at (4, 2) and centre at (3, 2).
If P is any point on the hyperbola whose axis are equal, prove that SP. S'P = CP2.
Equation of the hyperbola whose vertices are (± 3, 0) and foci at (± 5, 0), is
The difference of the focal distances of any point on the hyperbola is equal to
The equation of the hyperbola whose foci are (6, 4) and (−4, 4) and eccentricity 2, is
Find the equation of the hyperbola with vertices at (0, ± 6) and e = `5/3`. Find its foci.
Find the equation of the hyperbola whose vertices are (± 6, 0) and one of the directrices is x = 4.
The length of the transverse axis along x-axis with centre at origin of a hyperbola is 7 and it passes through the point (5, –2). The equation of the hyperbola is ______.
If the distance between the foci of a hyperbola is 16 and its eccentricity is `sqrt(2)`, then obtain the equation of the hyperbola.
Find the eccentricity of the hyperbola 9y2 – 4x2 = 36.
Find the equation of the hyperbola with eccentricity `3/2` and foci at (± 2, 0).
Find the equation of the hyperbola with vertices (0, ± 7), e = `4/3`
Find the equation of the hyperbola with foci `(0, +- sqrt(10))`, passing through (2, 3)
The equation of the hyperbola with vertices at (0, ± 6) and eccentricity `5/3` is ______ and its foci are ______.
The eccentricity of the hyperbola whose latus rectum is 8 and conjugate axis is equal to half of the distance between the foci is ______.
The distance between the foci of a hyperbola is 16 and its eccentricity is `sqrt(2)`. Its equation is ______.
