Let `A_0A_1A_2A_3A_4A_5` be a regular hexagon inscribed in a circle of unit radius. Then the product of the lengths of the line segment `A_0A_1A_0A_2and A_0A_4` is

Let A_0A_1A_2A_3A_4A_5 be a regular hexagon inscribed in a circle of unit radius. Then the product of the lengths the line segments A_0A_1, A_0A_2 and A_0A_4 is

Let A_0A_1A_2A_3A_4A_5 be a regular hexagon inscribed in a circle of unit radius. Then the product of the lengths the line segments A_0A_1, A_0A_2 and A_0A_4 is

A_0, A_1 ,A_2, A_3, A_4, A_5 be a regular hexagon inscribed in a circle of unit radius ,then the product of (A_0A_1*A_0A_2*A_0A_4 is equal to

Shown below is a regular hexagon inscribed in a circle whose radius is 4 inches . What is the perimeter, in inches, of the hexagon?

Regular pentagons are inscribed in two circles of radius 5 and 2 units respectively. The ratio of their areas is

A particle of mass in is made to move with uniform speed v_0 along the perimeter of a regular hexagon, inscribed in a circle of radius R . The magnitude of impulse applied at each corner of the hexagon is

Line segments A C and B D are diameters of the circle of radius 1. If /_B D C=60^0 , the length of line segment A B is_________

A regular hexagon of side a has a charge Q at each vertex. Potential at the centres of hexagon is (k= (1/4piepsilon_0) )

If the line x+3y=0 is tangent at (0,0) to the circle of radius 1, then the centre of one such circle is

A right angled isosceles triangle is inscribed in the circle x^2 + y^2 _ 4x - 2y - 4 = 0 then length of its side is