Let A B C be a triangle with incenter I ...

Let `A B C` be a triangle with incenter `I` and inradius `rdot` Let `D ,E ,a n dF` be the feet of the perpendiculars from `I` to the sides `B C ,C A ,a n dA B ,` respectively. If `r_1,r_2a n dr_3` are the radii of circles inscribed in the quadrilaterals `A F I E ,B D I F ,a n dC E I D ,` respectively, prove that `(r_1)/(r-1_1)+(r_2)/(r-r_2)+(r_3)/(r-r_3)=(r_1r_2r_3)/((r-r_1)(r-r_2)(r-r_3))`

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Let ABC be a triangle with incentre I and inradius r. Let D, E, F be the feet of the perpendiculars from I to the sides BC, CA and AB, respectively, If r_(2)" and "r_(3) are the radii of circles inscribed in the quadrilaterls AFIE, BDIF and CEID respectively, then prove that r_(1)/(r-r_(1))+r_(2)/(r-r_(2))+r_(3)/(r-r_(3))=(r_(1)r_(2)r_(3))/((r-r_(1))(r-r_(2))(r-r_(3)))

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