A curve passes through `(2, 1)` and is such that the square of the ordinate is twice the rectangle contained by the abscissa and the intercept of the normal. Then the equation of curve is

A curve passing through (1, 0) is such that the ratio of the square of the intercept cut by any tangent on the y-axis to the Sub-normal is equal to the ratio of the product of the Coordinates of the point of tangency to the product of square of the slope of the tangent and the subtangent at the same point, is given by

Consider a curve y=f(x) in xy-plane. The curve passes through (0,0) and has the property that a segment of tangent drawn at any point P(x,f(x)) and the line y = 3 gets bisected by the line x + y = 1 then the equation of curve, is

If the length of the subnormal of a curve is constant and if it passes through the origin, then the equation of curve is ____

A particle straight line passes through orgin and a point whose abscissa is double of ordinate of the point. The equation of such straight line is :

Find the equation of a curve passing through the point (0,2) given that the sum of the coordinates of any point on the curve exceeds the magnitude of the slope of the tangent to the curve at that point by 5.

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).

A particle straight line passes through origin and a point whose abscissa is double of ordinate of the point. The equation of such straight line is :

Find the equation of a curve passing through the point (0,1).If the slope of the tangent to the curve at any point (x,y) is equal to the sum of the x coordinate(abscissa) and the product of the x coordinate and y coordinate (ordinate) of that point.

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.

A curve C passes through origin and has the property that at each point (x, y) on it the normal line at that point passes through (1, 0) . The equation of a common tangent to the curve C and the parabola y^2 = 4x is