Force which is directly towards the centre of the circle (centre seeking )

If O is the centre of the circle, then x is

On which line does the centre of the circle lie? x+y=0

The real force 'F' acting on a particle of mass 'm' performing circular motion acts along the radius of circle 'r' and is directed towards the centre of circle. The square root of magnitude of such force is (T=periodic time)

Let p and q be the length of two chords of a circle which subtend angles 36^@ and 60^@ respectively at the centre of the circle . Then , the angle (in radian) subtended by the chord of length p + q at the centre of the circle is (use pi=3.1 )

For the four circles M, N, O and P, following four equations are given : Circle M : x^2 + y^2=1 Circle N : x^2 + y^2– 2x=0 Circle 0 : x^2 + y^2 - 2x - 2y +1=0 Circle P : x^2 + y^2 – 2y=0 If the centre of circle M is joined with centre of the circle N, further centre of circle N is joined with centre of the circle O, centre of circle O is joined with the centre of circle P and lastly, centre of circle P is joined with centre of circle M, then these lines form the sides of a :

One circle has a radius of 5 and its centre at (0,5). A second circle has a radius of 12 and its centre at (12,0). What is the length of a radius of a third circle which passes through the centre of the second circle and both the points of intersection of the first two circles.