The differential equation for the family of curve `x^2+y^2-2a y=0,` where `a` is an arbitrary constant, is

The differential equation for the family of curves x^(2)-y^(2)-2ay=0 , where a is an arbitrary constant, is

The differential equation for the family of curves x^2+y^2-2ay=0 , where a is an arbitrary constant is (A) (x^2-y^2)y\'=2xy (B) 2(x^2+y^2)y\'=xy (C) 2(x^2-y^2)y\'=xy (D) (x^2+y^2)y\'=2xy

The differential equation of the family of curves y^(2)=4a(x+a)

Find the differential equation of the family of curves (x+a)^2-2y^2=a^2 , where a is an arbitrary constant.

The differential equation of the family of curves of x^(2)+y^(2)-2ay=0 where a is arbitary constant, is

From the differential equation of the family of curves given by x^(2)+y^(2)-2ay=a^(2), where a is an arbitrary constant.

Form the differential equation representing the family of curves y^2-2ay+x^2=a^2 , where a is an arbitrary constant.

Form the differential equation for the family of curves y^2= 4a (x+b) where a and b arbitrary constants.

Find the differential equation for the family of curves y^2=4a (x+b) where c is an arbitrary constant.