Prove that for the curve `y=be^(x//a)` , the subtangent is of constant length and the sub-normal varies as the square of the ordinate .

What normal to the curve y=x^2 forms the shortest chord?

The curves for which the length of the normal is equal to the length of the radius vector is/are

Find the equation of the normal to the curve y = x^3 at the point (2,1).

If the length of sub-normal is equal to the length of sub-tangent at any point (3,4) on the curve y=f(x) and the tangent at (3,4) to y=f(x) meets the coordinate axes at Aa n dB , then the maximum area of the triangle O A B , where O is origin, is 45/2 (b) 49/2 (c) 25/2 (d) 81/2

Find the family of curves, the subtangent at any point of which is the arithmetic mean of the co-ordinate point of tangency.

The equation of the normal to the curve y = sin x at (0,0) is

Find the equation of a curve passing through the origin if the slope of the tangent to the curve at any point (x,y) is equal to the square of the difference of the abscissa and the ordinate of the point.

Prove that the length of a focal chord of a parabola varies inversely as the square of its distance from the vertex.

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.