`x^(2) + y^(2) = c^(2)`

Prove the x^(2) - y^(2) = c (x^(2) + y^(2))^(2) is the general solution of differential equation (x^(3) - 3x y^(2))dx = (y^(3) - 3x^(2)y)dy , where c is a parameter.

If x : a = y : b = z : c , then prove that (a^(2) + b^(2) + c^(2))(x^(2) + y^(2) + z^(2)) = (ax + by + cz)^(2)

Show that the length of the common chord of the circles (x-a)^(2) + (y-b)^(2) = c^(2) and (x-b)^(2) + (y-a)^(2) = c^(2) is sqrt(4c^(2) -2(a-b)^(2)) unit.

If the distance of a given point (alpha,beta) from each of two straight lines y = mx through the origin is d, then (alpha gamma- beta x)^(2) is equal to (a) x^(2) +y^(2) (b) d^(2)(x^(2)+y^(2)) (c) d^(2) (d) none of these

The line y= mx +c touches the hyperbola b^(2) x^(2) - a^(2) y^(2) = a^(2)b^(2) if-

If the circles x^(2) + y^(2) + 2ax + c^(2) = 0 and x^(2) + y^(2) + 2by + c^(2) = 0 touch each other, prove that, (1)/(a^(2)) + (1)/(b^(2)) = (1)/(c^(2)) .

Prove that the locus of the mid-points of chords of length 2d unit of the hyperbola xy=c^(2) is (x^(2)+y^(2))(xy-c^(2))=d^(2)xy.

The locus of the foot of the perpendicular from the origin on each member of the family (4a+ 3)x - (a+ 1)y -(2a+1)=0 (a) (2x-1)^(2) +4 (y+1)^(2) = 5 (b) (2x-1)^(2) +(y+1)^(2) = 5 (c) (2x+1)^(2)+4(y-1)^(2) = 5 (d) (2x-1)^(2) +4(y-1)^(2) = 5

Solve the following simultaneous linear equations in two variables by the method of subsitution : ax+by=c^(2) a^(2)x+b^(2)y=c^(2)

Solve the following simultaneous linear equations in two variables by the method of elimination ax+by=c a^(2)x+b^(2)y=c^(2)