A curve C has the property that its intial ordinate of any tangent drawn is less the abscissa of the point of tangency by unity.
Statement I. Differential equation satisfying tha curve is linear.
Statement II. Degree of differential equation is one.

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

The Curve possessing the property that the intercept made by the tangent at any point of the curve on they-axis is equal to square of the abscissa of the point of tangency, is given by

Tangent to a curve intercepts the y-axis at a point P. A line perpendicular to the tangent through P passes through another point (1,0). The differential equation of the curve is

Statement I Order of differential equation of family of parabola whose axis is parallel to y-axis and latusrectum is fixed is 2. Statement II Order of first equation is same as actual number of arbitary constant present in differential equation.

Statement I The order of differential equation of all conics whose centre lies at origin is , 2. Statement II The order of differential equation is same as number of arbitary unknowns in the given curve.

Let y=f(x)be curve passing through (1,sqrt3) such that tangent at any point P on the curve lying in the first quadrant has positive slope and the tangent and the normal at the point P cut the x-axis at A and B respectively so that the mid-point of AB is origin. Find the differential equation of the curve and hence determine f(x).

Statement I Integral curves denoted by the first order linear differential equation (dy)/(dx)-(1)/(x)y=-x are family of parabolas passing throught the origin. Statement II Every differential equation geomrtrically represents a family of curve having some common property.

Write the linear equation such that each point on its graph has an ordinate 3 times its abscissa.

Statement I Differential equation corresponding to all lines, ax+by+c=0 has the order 3. Statement II Gereral solution of a differential equation of nth order contains n independent arbitaray constanis.

Find the equation of all possible curves such that length of intercept made by any tangent on x-axis is equal to the square of X-coordinate of the point of tangency. Given that the curve passes through (2,1)