The differential equation of all circles in a plane must be (A) `y_3(1+y_1^2)-3y_1y_2^2=0` (B) Of order 3 and degree 3 (C) Of order 3 and degree 2 (D) `y_3(1-y_1^2)-3yy_2^2=0`

The differential equation representing the family of curves y^2=2c(x+sqrt(c)) where c gt 0 is a parameter, is of order and degree as follows: (A) order 1, degree 3 (B) order 2, degree 2 (C) order 1, degree 2 (D) order 1, degree 1

The differential equation representing the family of curves y^(2)=2c(x+sqrt(c)) ,where c>0 ,is a parameter,is of order and degree as follows: (A) order 1 ,degree 2 (B) order 1 ,degree 1 (C) order 1 ,degree 3 (D) order 2 ,degree 2

Mention the order and the degree of the differential equation y_2=root3(y+y_1^2)

The order and degree of the differential equation (dy/dx)^4+3y(d^2y)/dx^2=0 are

The order and degree of the differential equation (1+3y_(1))^(2//3) = 4y_(3) are

The differential equation representing the family of curves y^(2)=2c(x+c^(3)) , where c is a positive parameter ,is of a)order 1, degree 1 b)order 1, degree 2 c)order 1, degree 3 d)order 1, degree 4

Mention the order and the degree of the differential equation y_3+ky_2 = 0

The differential equation representing the family of curves y^(2) = 2c (x + sqrt(c)) , where c is a positive parameter, is of a)order 1, degree 2 b)order 1, degree 3 c)order 2, degree 3 d)order 2, degree 2

The order and degree of the differential equation y'' (y - (y')^(3))^(2/3) are :

(d^(3)y)/(dx^(3))+6(d^(2)y)/(dx^(2))+y=0 . Find order and degree of differential equation.