Suppose that the foci of the ellipse (x^...

Suppose that the foci of the ellipse `(x^2)/9+(y^2)/5=1` are `(f_1,0)a n d(f_2,0)` where `f_1>0a n df_2<0.` Let `P_1a n dP_2` be two parabolas with a common vertex at (0, 0) and with foci at `(f_1 .0)a n d` (2f_2 , 0), respectively. Let`T_1` be a tangent to `P_1` which passes through `(2f_2,0)` and `T_2` be a tangents to `P_2` which passes through `(f_1,0)` . If `m_1` is the slope of `T_1` and `m_2` is the slope of `T_2,` then the value of `(1/(m1 2)+m2 2)` is

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Suppose that the foci of the ellipse (x^(2))/(9)+(y^(2))/(5)=1 are (f_(1),0) and (f_(2),0) where f_(1)gt0 and f_(2)lt0 Let P_(1) and P_(2) be two parabola with a c ommon vertex at (0, 0) and with foci at (f_(1),0) and (2f_(z),0) and T_(2) be a tangent to P_(2) which passes through (f_(1),0) . If m_(1) is the slope of T_(1) and m_(2) is the slope of T_(2) , then the value of ((1)/(m_(1)^(2))+m_(2)^(2)) , is

F_(1) and F_(2) are the two foci of the ellipse (x^(2))/(9) + (y^(2))/(4) = 1. Let P be a point on the ellipse such that |PF_(1) | = 2|PF_(2)| , where F_(1) and F_(2) are the two foci of the ellipse . The area of triangle PF_(1)F_(2) is :

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