If a tangent and a normal to the ellipse `x^2+4y^2=4` at the point `theta` meets its major axis at `P` and `Q` such that `PQ=2` then `(1+costheta)/2=`

If a tangent and a normal to the ellipse x^(2)+4y^(2)=4 at the point theta meets its major axis at P and Q such that PQ=2 then (1+cos theta)/(2)=

If the tangent and normal to the ellipse x^2 + 4y^2 = 4 at point P (theta) meets the major axes in Q and R respectively, and QR = 3 , then (A) cos theta = 1 /sqrt(3) (B) cos theta= 1/3 (C) cos theta = 2/3 (D) costheta = (-2/(3)

If the tangent and normal to the ellipse x^2 + 4y^2 = 4 at point P (theta) meets the major axes in Q and R respectively, and QR = 3 , then (A) cos theta = 1 /sqrt(3) (B) cos theta= 1/3 (C) cos theta = 2/3 (D) costheta = (-2/(3)

The tangent and normal to the ellipse x^(2)+4y^(2)=4 at a point P(theta) on it meet the major aixs in Q and R repectively. IF QR=2, then value of cos theta is/are

The tangent and normal to the ellipse x^(2)+4y^(2)=4 at a point P(theta) on it meets the major axis in Q and R respectively.If theta lt theta lt (pi)/(2) and QR=2 then show that theta=cos^(-1)((2)/(3)).

The tangent and normal to the ellipse x^2+4y^2=4 at a point P(theta) on it meets the major axis in Q and R respectively. If 0 < theta < pi/2 and QR=2 then show that theta=

The tangent and normal to the ellipse x^2+4y^2=4 at a point P(theta ) on it meets the major axis in Q and R respectively. If 0

The tangent and the normal to the ellipse 4x^(2)+9y^(2)=36 at the point P meets the major axis Q and R respectively.If QR=4 then the eccentric angle of P is given by