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 .

Find the equation of the curve in which the subnormal varies as the square of the ordinate.

Find the equation of the curve in which the subnormal varies as the square of the ordinate.

In the curve y=c e^(x/a) , the sub-tangent is constant sub-normal varies as the square of the ordinate tangent at (x_1,y_1) on the curve intersects the x-axis at a distance of (x_1-a) from the origin equation of the normal at the point where the curve cuts y-a xi s is c y+a x=c^2

Show that for the curve b y^2=(x+a)^3, the square of the sub-tangent varies as the sub-normal.

If the sub-normal at any point on y^(1-n)x^n is of constant length, then find the value of ndot

The subtangent, ordinate and subnormal to the parabola y^2 = 4ax are in

If the sub-normal at any point on y=a^(1-n)x^n is of constant length, then find the value of ndot

If the length of the portion of the normal intercepted between a curve and the x-axis varies as the square of the ordinate, find the equation of the curve.

Find the slopes of the tangent and the normal to the curve y=sqrt(x) at x=9

If the subnormal at any point on the curve y =3 ^(1-k). x ^(k) is of constant length the k equals to :