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Question
The eccentric angles of two points P and Q the ellipse 4x2 + y2 = 4 differ by `(2pi)/3`. Show that the locus of the point of intersection of the tangents at P and Q is the ellipse 4x2 + y2 = 16
Solution
Given equation of the ellipse is 4x2 + y2 = 4
∴ `x^2/1 + y^2/4` = 1
Let P(θ1) and Q(θ2) be any two points on the given ellipse such that θ1 – θ2 = `(2pi)/3`
Equation of tangent at point P(θ1) is
`(xcostheta_1)/1 + (ysintheta_1)/2` = 1 ...(i)
Equation of tangent at point Q(θ2) is
`(xcostheta_2)/1 + (ysintheta_2)/2` = 1 ...(ii)
Multiplying equation (i) by cos θ2 and equation (ii) by cos θ1 and subtracting, we get
`y/2(sintheta_1 costheta_2 - sintheta_2 costheta_1)` = cos θ2 – cos θ1
∴ `y/2[sin(theta_1 - theta_2)]` = cos θ2 – cos θ1
∴ `y/2[sin((2pi)/3)]` = cos θ2 – cos θ1
∴ `y/2 sin(pi - pi/3)` = cos θ2 – cos θ1
∴ `y/2sin(pi/3)` = cos θ2 – cos θ1
∴ `y/2(sqrt(3)/2)` = cos θ2 – cos θ1
∴ `(sqrt(3)y)/4` = cos θ2 – cos θ1 ...(iii)
Multiplying equation (i) by sin θ2 and equation (ii) by sin θ1 and subtracting, we get
x(sin θ2 cos θ1 – cos θ2 sin θ1) = sin θ2 – sin θ1
∴ – x sin (θ1 – θ2) = sin θ2 – sin θ1
∴ `-xsin((2pi)/3)` = sin θ2 – sin θ1
∴ `-xsin(pi - pi/3)` = sin θ2 – sin θ1
∴ `-x sin pi/3` = sin θ2 – sin θ1
∴ `- sqrt(3)/2x` = sin θ2 – sin θ1 ...(iv)
Squaring (iii) and (iv) and adding, we get
`(3x^2)/4 + (3y^2)/16` = sin2 θ2 – 2 sin θ2 sin θ1 + sin2 θ1 + cos2 θ2 – 2 cos θ2 cos θ1 + cos2 θ1
= (cos2 θ2 + sin2 θ2) + (cos2 θ1 + sin2 θ1) – 2 cos θ2 cos θ1 – 2 sin θ2 sin θ1
= 1 + 1 – 2 (cos θ2 cos θ1 + sin θ2 sin θ1)
= 2 – 2 [cos (θ1 – θ2)]
= `2 - 2cos((2pi)/3)`
= `2 - 2((-1)/2)`
= 2 + 1
∴ `(3x^2)/4 + (3y^2)/16` = 3
∴ `x^2/4 + y^2/16` = 1
∴ 4x2 + y2 = 16, which is the required equation of locus.
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