A circle having centre as O' and radius r' touches the incircle of `Delta ABC` externally at. F, where F is on BC and also touches its circumcircle internally at G. It O is the circumcentre of `Delta ABC` and I is its incentre, then

O is the circumcentre of Delta ABC and OD bot BC . Prove that angle BOD= angle BAC

Two circles with centres A and B touch each other internally. Another circle touches the larger circle internally at the point X and the smaller circle externally at the point Y. If O be the centre of that circle, prove that (OA + BO) is constant.

A circle C_1 of radius b touches the circle x^2 + y^2 =a^2 externally and has its centre on the positiveX-axis; another circle C_2 of radius c touches the circle C_1 , externally and has its centre on the positive x-axis. Given a lt b lt c then three circles have a common tangent if a,b,c are in?

The incircle of Delta ABC touches the sides AB, BC and CA of the triangle at the points D, E and F. Prove that AD + BE +CF=AF+CE +BD=1/2 (The perimeter of DeltaABC )

O is the circumcentre of Delta ABC and OD is perpendicular on the side BC, prove that angle BOD= angle BAC

O is the orthocentre of Delta ABC and AD bot BC . If AD is produced it interect the circumcircle of Delta ABC at the point G. Prove that OD= DG .

(i) The circumcentre of the triangle ABC is O, If angle BOC=80^@, then angle BAC=

O is the orthocentre of the DeltaABC . Prove that O is also the incentre of its pedal triangles .

Let A B C be a triangle right-angled at Aa n dS be its circumcircle. Let S_1 be the circle touching the lines A B and A C and the circle S internally. Further, let S_2 be the circle touching the lines A B and A C produced and the circle S externally. If r_1 and r_2 are the radii of the circles S_1 and S_2 , respectively, show that r_1r_2=4 area ( A B C)dot

Two tangents are drawn from an external point A of the circle with centre at O which touches the circle at the points B and C. Prove that AO is the perpendicular bisector of BC.