The normal to the curve `2x^2+y^2=12` at the point `(2,2)` cuts the curve again at (A) `(-(22)/9,-2/9)` (B) `((22)/9,2/9)` (C) `(-2,-2)` (D) none of these

The normal to the curve 2x^2+y^2=12 at the point (2,2) cuts the curve again at (a) (-(22)/9,-2/9) (b) ((22)/9,2/9) (-2,-2) (d) none of these

The equation of the normal to the curve y= e^(-2|x|) at the point where the curve cuts the line x=-(1)/(2), is

The equation of the normal to the curve y=e^(-2|x|) at the point where the curve cuts the line x = 1//2 is

An ellipse has point (1,-1)a n d(2,-1) as its foci and x+y-5=0 as one of its tangents. Then the point where this line touches the ellipse is (a) ((32)/9,(22)/9) (b) ((23)/9,2/9) (c) ((34)/9,(11)/9) (d) none of these

The point on the circle (x-3)^2 + (y-4)^2 = 4 which is at least distance from the circle x^2 + y^2 = 1 is : (A) (3/5, 4/5) (B) (9/5, 12/5) (C) (9, 12) (D) none of these

Find the equation of the normal to the circle x^2+y^2=9 at the point (1/(sqrt(2)),1/(sqrt(2))) .

The number of tangents to the curve y-2=x^(5) which are drawn from point (2,2) is // are

The angle between the curves y^2 =4x+4 and y^2 =36(9−x) is?

If x+4y=14 is a normal to the curve y^2=alphax^3-beta at (2,3), then the value of alpha+beta is 9 (b) -5 (c) 7 (d) -7

If x+4y=14 is a normal to the curve y^2=alphax^3-beta at (2,3), then the value of alpha+beta is (a) 9 (b) -5 (c) 7 (d) -7