The normal at P to a hyperbola of eccentricity `(3)/(2sqrt(2))` intersects the transverse and conjugate axes at M and N respectively. The locus of mid-point of MN is a hyperbola, then its eccentricity.

The normal at P to a hyperbola of eccentricity e, intersects its transverse and conjugate axes at L and M respectively.Show that the locus of the middle point of LM is a hyperbola of eccentricity (e)/(sqrt(e^(2)-1))

If normal at P to a hyperbola of eccentricity 2 intersects its transverse and conjugate axes at Q and R, respectively, then prove that the locus of midpoint of QR is a hyperbola. Find the eccentricity of this hyperbola

Find the equation of the hyperbola whole transverse and conjugate axes are 8 and 6 respectively.

For the hyperbola (x^(2))/(a^(2))+(y^(2))/(b^(2))=1 , the normal at point P meets the transverse axis AA' in G and the connjugate axis BB' in g and CF be perpendicular to the normal from the centre. Q. Locus of middle-point of G and g is a hyperbola of eccentricity

If the latus rectum of an hyperbola be 8 and eccentricity be (3)/( sqrt5) the the equation of the hyperbola is

If the tangent drawn to the hyperbola 4y^2=x^2+1 intersect the co-ordinate axes at the distinct points A and B, then the locus of the mid-point of AB is: