If α and β are the eccentric angles of the extremities of a focal chord of an ellipse, then the eccentricity of the ellipse is
The equation of chord joining points having eccentric angle α and β is given by
If it through (ae, 0) then
Find the locus of the poles of tangents to with respect to the concentric ellipse .
Determine the equation of major and minor axes of the ellipse
Also, find its centre, length of the latusrectum and eccentricity.
Find the locus of the centroid of an equilateral triangle inscribed in the ellipse
If SY and S1Y1 be perpendiculars from the foci upon the tangent atP of an ellipse, then Y and Y1 lie on the auxiliary circle andSY.S1Y1 =
Find the condition on a and b for which two distinct chords of the ellipse passing through (a, –b) are bisected by the line x + y = b.
Let P be a point on the ellipse , 0 < b < a. Let the line parallel to y-axis passes through P meet the circle at the point Q, such that P and Q are the same side of x-axis. For two positive real numbers r and s, find the locus of the point Ron PQ such that PR : RQ = r : s as P varies over the ellipse.
Consider the family of circle x2 + y2 = r2, 2 < r < 5. If in the first quadrant the common tangent to a circle of the family and the ellipse 4x2 + 25y2 = 100 meets the coordinate axes at A and B, then find the equation of the locus of the mid point of AB.
The orbit of earth is an ellipse with eccentricity 1/60 with the sun at one focus the major axis being approximately 186 × 106 miles in length. Find the shortest and longest distance of the earth from the sun.
A straight line PQ touches the ellipse and the circle x2 + y2 = r2 (b < r < a). RS is a focal chord of the ellipse. If RSis parallel to PQ and meets the circle at points R and S. Find the length of RS.
, then the chord joining two points θ1 and θ2 on the ellipse will subtend a right angle at