A `40 kg` flywheel in the from of a unifrom circular disc `200 cm`. in diameter is making `120` revolutions/minute. Calculate angular momentum. Moment of inertia of disc `= (1//2) mass xx ("radius")^(2)`.

A 40 kg flywheel in from of a circular disc of =1 m radius is making 120revolutions per minute. Calculate its angular momentum. [ I = 1/2m times r^2 ]

A 40 kg flywheel in the from of a uniform circular disc of 1 m radius is making 120 rpm. Calculate the angular momentum.

A 40 kg flywheel in the form of a uniform circular disc of 1 m radius is rotating at 120 rpm. Calculate the angular momentum.

A 40 kg flywheel in the formof a uniform circlular disc of 1m radius is making 120 rpm. Calculate the angular momentum.

A fly wheel (disc form) of mass 50 kg and diameter 100 cm is making 150 revolutions/ min. What will be the angular momentum of flywheel?

A circular disc of mass 0.15 kg and radius 0.1 m makes 120 revolutions in one minute about its own axis. Calculate its angular momentum.

If moment of inertia of a circular disc that makes 20 revolutions per second is 20 kg m^(2) . Its angular momentum in kg m^(2)//s

A circular disc of 49 kg and radius 50 cm is rotating at a speed of 120 rotations per minute. Calculate its kinetic energy if is moment of inertia about the axis of rotation is 1/2 mr^(2) .

A sphere of mass 2 kg and radius 5 cm is rotating at the rate of 300 revolutions per minute. Calculate the torque required to stop it in 6.28 revolutions. [Moment of inertia of sphere about diameter = 2//5 mass xx ("radius")^(2)] .