A particle of mass `m` is made to move with uniform speed `u` along the perimeter of a regular polygon of `n` sides. What is the magnitude of impulse applied by the particle at each corner of the polygon?

A particle of mass is made to move with uniform speed v along the perimeter of a regular polygon of 2n sides. The magnitude of impulse of impulse applied at each corner of the polygon in amv sin pi//bn . Then a/b =

A particle of mass m is made to move with a uniform speed "v' along the perimeter of a polygon of n sides inscribed in a circle of radius "a".

A particle of mass m is made to move with uniform speed v_(0) along the perimerter of a regular hexagon. Inscribed in a circle of radius. R. The magnitude of impulse applied at each corner of the hexagon is :-

A particle of mass m is made to move with uniform speed v_(0) along the perimerter of a regular hexagon. Inscribed in a circle of radius. R. The magnitude of impulse applied at each corner of the hexagon 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

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

A particle of mass m is made to move with unifrom speed v along the perimeter of a regular hexagon. Magnitude of impulse applied at each corner of the heaxogen is

What is sum of the interior angles of a regular polygon of n sides?

The area of the circle and the area of a regular polygon of n sides and the perimeter equal to the circle are in the ratio of

The area of the circle and the area of a regular polygon of n sides and of perimeter equal to that of the circle are in the ratio of