Prove that the curves `x = y^(2) and xy = k` cut at right angles, if `8k^(2) = 1`.

Show that the curves 4x = y^(2) and 4xy = k cuts at right angles, if k^(2) = 512 .

Prove that the curves y^(2) = 4ax and xy = c^(2) cut at the right angles, if c^(4) = 32 a^(4) .

Show that the curves y = 2^(x) and y = 5^(x) intersect at an angle tan^(-1) |("1n ((5)/(2)))/(1 + 1n 2 1n 5)| . Note Angle between two curves is the angle between their tangents at the point of intersection.

Show that the curves ax^2 + by^2 = 1 and a' x^2 + b' y^2 = 1. Intersect at right angles if 1/a - 1/b = 1/a' - 1/b' cdot

Find the condition that curves 2x = y^(2) and 2xy = k intersect orthogonally.

Find the value of p for which the curves x^(2) = 9 p(9 - y) and x^(2) = p(y + 1) cuts each other at right angles.

The tangent to the curve y = 2x^(2) - 7x + 3 at certain point is parallel to the straight line y = x + 2. Find the equation of this tangent and the point, where it cuts Y-axis.