269384 Three particles of masses \(1 \mathrm{gm}, 2 \mathrm{gm} \& 3 \mathrm{gm}\) are at \(1 \mathrm{~cm}, 2 \mathrm{~cm}, \& 3 \mathrm{~cm}\) from the axis of rotation respectively then the moment of inertia of the system \& radius of gyration of the system respectively are .......gm cm \(\mathrm{cm}^{2}\) and .. \(\mathbf{c m}\)

269385 A hoop of mass\(500 \mathrm{gm}\) \& radius \(10 \mathrm{~cm}\) is placed on a nail. then the moment of inertia of the hoop, when it is rotated about the nail will be-- \(\mathbf{k g m}^{2}\)

269386 The ratio of moments of inertia of two solid spheres of same mass but densities in the ratio \(1: 8\) is

269387 The radius of a solid sphere is\(R\) and its density D. When it is made to rotate about an axis passing through any diameter of sphere, expression for its moment of inertia is

269384 Three particles of masses \(1 \mathrm{gm}, 2 \mathrm{gm} \& 3 \mathrm{gm}\) are at \(1 \mathrm{~cm}, 2 \mathrm{~cm}, \& 3 \mathrm{~cm}\) from the axis of rotation respectively then the moment of inertia of the system \& radius of gyration of the system respectively are .......gm cm \(\mathrm{cm}^{2}\) and .. \(\mathbf{c m}\)

269385 A hoop of mass\(500 \mathrm{gm}\) \& radius \(10 \mathrm{~cm}\) is placed on a nail. then the moment of inertia of the hoop, when it is rotated about the nail will be-- \(\mathbf{k g m}^{2}\)

269386 The ratio of moments of inertia of two solid spheres of same mass but densities in the ratio \(1: 8\) is

269387 The radius of a solid sphere is\(R\) and its density D. When it is made to rotate about an axis passing through any diameter of sphere, expression for its moment of inertia is

269384 Three particles of masses \(1 \mathrm{gm}, 2 \mathrm{gm} \& 3 \mathrm{gm}\) are at \(1 \mathrm{~cm}, 2 \mathrm{~cm}, \& 3 \mathrm{~cm}\) from the axis of rotation respectively then the moment of inertia of the system \& radius of gyration of the system respectively are .......gm cm \(\mathrm{cm}^{2}\) and .. \(\mathbf{c m}\)

269385 A hoop of mass\(500 \mathrm{gm}\) \& radius \(10 \mathrm{~cm}\) is placed on a nail. then the moment of inertia of the hoop, when it is rotated about the nail will be-- \(\mathbf{k g m}^{2}\)

269386 The ratio of moments of inertia of two solid spheres of same mass but densities in the ratio \(1: 8\) is

269387 The radius of a solid sphere is\(R\) and its density D. When it is made to rotate about an axis passing through any diameter of sphere, expression for its moment of inertia is

269384 Three particles of masses \(1 \mathrm{gm}, 2 \mathrm{gm} \& 3 \mathrm{gm}\) are at \(1 \mathrm{~cm}, 2 \mathrm{~cm}, \& 3 \mathrm{~cm}\) from the axis of rotation respectively then the moment of inertia of the system \& radius of gyration of the system respectively are .......gm cm \(\mathrm{cm}^{2}\) and .. \(\mathbf{c m}\)

269385 A hoop of mass\(500 \mathrm{gm}\) \& radius \(10 \mathrm{~cm}\) is placed on a nail. then the moment of inertia of the hoop, when it is rotated about the nail will be-- \(\mathbf{k g m}^{2}\)

269386 The ratio of moments of inertia of two solid spheres of same mass but densities in the ratio \(1: 8\) is

269387 The radius of a solid sphere is\(R\) and its density D. When it is made to rotate about an axis passing through any diameter of sphere, expression for its moment of inertia is