Asked by Jennifer uchechukwu
A uniform disc of moment of inertia 75 kg * m ^ 2 and radius of gyration 3 rates with an angula velocity of 2 rad s', Determine the (1) mass ( radius (14) angular imomentum and (|x) kinetic energy of the disc.
A cylinder of mass 65kg has a radius of gyration 0.8m the cylinder rotated by a belt at 4revolutions per second. Calculate the rotation
A uniform disc of moment of inertia 75 kg * m ^ 2 and radius of gyration 3 rates with an angula velocity of 2 rad s', Determine the (1) mass ( radius (14) angular imomentum and (|x) kinetic energy of the disc.
A cylinder of mass 65kg has a radius of gyration 0.8m the cylinder rotated by a belt at 4revolutions per second. Calculate the rotation
A torque 75 * 10Xm is applied to a circular solid disc grind when whose mass is 250 g and adius is 0.15m for 10s. Calculate the angula momentum and rotational kinetic energy of the wheel at the end of th
A cylinder of mass 65kg has a radius of gyration 0.8m the cylinder rotated by a belt at 4revolutions per second. Calculate the rotation
A uniform disc of moment of inertia 75 kg * m ^ 2 and radius of gyration 3 rates with an angula velocity of 2 rad s', Determine the (1) mass ( radius (14) angular imomentum and (|x) kinetic energy of the disc.
A cylinder of mass 65kg has a radius of gyration 0.8m the cylinder rotated by a belt at 4revolutions per second. Calculate the rotation
A torque 75 * 10Xm is applied to a circular solid disc grind when whose mass is 250 g and adius is 0.15m for 10s. Calculate the angula momentum and rotational kinetic energy of the wheel at the end of th
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