The degree of the differential equation satisfying by the curves `sqrt(1+x)-asqrt(1+y)=1,` is ……..

The degree of the differential equation satisfying the relation sqrt(1+x^2) + sqrt(1+y^2) = lambda (x sqrt(1+y^2)- ysqrt(1+x^2)) is

Find order and degree of given differential equation y' + y = e^(x)

Find Order and Degree of given differential equation. y' + 5y = 0

The differential equation corresponding to the family of curves y=e^x (ax+ b) is

A normal is drawn at a point P(x , y) of a curve. It meets the x-axis at Qdot If P Q has constant length k , then show that the differential equation describing such curves is y(dy)/(dx)=+-sqrt(k^2-y^2) . Find the equation of such a curve passing through (0, k)dot

Form the differential equation of y=px+(p)/(sqrt(1+p^(2).

The order of the differential equation of family of curves y=C_(1)sin^(-1)x+C_(2)cos^(-1)x+C_(3)tan^(-1)x+C_(4)cot^(-1)x (where C_(1),C_(2),C_(3) and C_(4) are arbitrary constants) is

The differential equation satisfying the curve (x^(2))/(a^(2)+lambda)+(y^(2))/(b^(2)+lambda)=1 when lambda begin arbitary uknowm, is (a) (x+yy_(1))(xy_(1)-y)=(a^(2)-b^(2))y_(1) (b) (x+yy_(1))(xy_(1)-y)=y_(1) ( c ) (x-yy_(1))(xy_(1)+y)(a^(2)-b^(2))y_(1) (d) None of these

Find the general solution of the differential equation (dy)/(dx) + sqrt((1 - y^(2))/(1 - x^(2))) = 0 .

Solve the differential equation (tan^(-1)y - x)dy = ( 1 + y^(2))dx .