The differential equation representing the family of curves `y^(2) = 2c (x + sqrtc)`, where `c gt 0` is a parameter, is of order and degree as follows.

Form the differential equation representing the family of curves y = mx where, m is arbitrary constant.

Form the differential equation representing the family of curves y = a sin ( x + b) , where a, b are arbitrary constants.

Form the differential equations the family of curves y = cx + c - c^(2) where c is a parameter.

Form the differential equations corresponding to the family of curves. (i) y = c(x-2c) where c is a parameter. (ii) y = a cos 3x + b sin 3x where a, b are parameters. (iii) y = a cos x + b sin x where a, b are parameters. (iv) y = a e^(x) + b e^(-x) where a, b are parameters.

The differential equation corresponding to the family of curves given by y = a + be^(2x) + ce^(-3x) is

The differential equation corresponding to the family of circles given by (x-a)^(2) + (y-b)^(2) = 4 where a and b are parameters, is

The differential equation correspoinding to the family of parabola y^2=4a(x+a) where a is the parameter , is

The differential equation of the family of curve y = ax + (1)/(a) , where a ne 0 is an arbitrary constant, has the degree