The equation of  the transverse and conjugate axes of a hyperbola are respectively. X+2y-3=0, 2x-y+4=0 and their respective lengths are  √2 and 2/√3. The equation of the hyperbola is

Tangents to the hyperbola x²/a²+y²/b²=1 make an angles θ₁, θ₂ with the traverse axis . The equation of the locus of their intersection when tan (θ₁+θ₂)=k is

The area (in square units) of the equilateral triangle formed by the tangent at (√3, 0) to the hyperbola x²-3y²=3 with the pair of a asymptotes of the hyperbola is

The equation of the hyperbola with its transverse axis is parallel to y-axis, and its centre is (2,-3), the length of transverse axis is 12 and eccentricity 7/6 is

Tangents are drawn  from  the Point (-2, -1) to the hyperbola 2x²-3y²=6. Their equations are

If the axes are rotated through an angle of 45⁰ in the anticlockwise direction then the equation of rectangular hyperbola x²-y²=a² changes to

The equation of the hyperbola whose centre is (1,2), one focus is (6,2) and transverse axis 6 is

The equation of the director circle of x²/12-y²/8=1 is

x²-y²+5x+8y-4=0 represents

The centre of the hyperbola 9x²-16y²+72x-32y-16=0 is