163800 A rope of negligible mass is wound round a hollow cylinder of mass \(3 \mathrm{~kg}\) and radius \(40 \mathrm{~cm}\). What is the angular acceleration of the cylinder if the rope is pulled with a force of \(30 \mathrm{~N}\) ? What is the linear acceleration of the rope? Assume that there is no slipping:

163801 A uniform rod of length \(I\) and mass \(m\) is free to rotate in a vertical plane about \(A\). The rod initially in horizontal is released. The initial angular acceleration of the rod is :

163802 Three identical thin rods each of length \(/\) and mass \(M\) are joined together to form a letter \(H\). The moment of inertia of the system about one of the side of \(\mathrm{H}\) is :

163803 If the moment of inertia of a disc about an axis tangentially and parallel to its surface be \(I\), then the moment of inertia about the axis tangential but perpendicular to the surface will be

163800 A rope of negligible mass is wound round a hollow cylinder of mass \(3 \mathrm{~kg}\) and radius \(40 \mathrm{~cm}\). What is the angular acceleration of the cylinder if the rope is pulled with a force of \(30 \mathrm{~N}\) ? What is the linear acceleration of the rope? Assume that there is no slipping:

163801 A uniform rod of length \(I\) and mass \(m\) is free to rotate in a vertical plane about \(A\). The rod initially in horizontal is released. The initial angular acceleration of the rod is :

163802 Three identical thin rods each of length \(/\) and mass \(M\) are joined together to form a letter \(H\). The moment of inertia of the system about one of the side of \(\mathrm{H}\) is :

163803 If the moment of inertia of a disc about an axis tangentially and parallel to its surface be \(I\), then the moment of inertia about the axis tangential but perpendicular to the surface will be

163800 A rope of negligible mass is wound round a hollow cylinder of mass \(3 \mathrm{~kg}\) and radius \(40 \mathrm{~cm}\). What is the angular acceleration of the cylinder if the rope is pulled with a force of \(30 \mathrm{~N}\) ? What is the linear acceleration of the rope? Assume that there is no slipping:

163801 A uniform rod of length \(I\) and mass \(m\) is free to rotate in a vertical plane about \(A\). The rod initially in horizontal is released. The initial angular acceleration of the rod is :

163802 Three identical thin rods each of length \(/\) and mass \(M\) are joined together to form a letter \(H\). The moment of inertia of the system about one of the side of \(\mathrm{H}\) is :

163803 If the moment of inertia of a disc about an axis tangentially and parallel to its surface be \(I\), then the moment of inertia about the axis tangential but perpendicular to the surface will be

163800 A rope of negligible mass is wound round a hollow cylinder of mass \(3 \mathrm{~kg}\) and radius \(40 \mathrm{~cm}\). What is the angular acceleration of the cylinder if the rope is pulled with a force of \(30 \mathrm{~N}\) ? What is the linear acceleration of the rope? Assume that there is no slipping:

163801 A uniform rod of length \(I\) and mass \(m\) is free to rotate in a vertical plane about \(A\). The rod initially in horizontal is released. The initial angular acceleration of the rod is :

163802 Three identical thin rods each of length \(/\) and mass \(M\) are joined together to form a letter \(H\). The moment of inertia of the system about one of the side of \(\mathrm{H}\) is :

163803 If the moment of inertia of a disc about an axis tangentially and parallel to its surface be \(I\), then the moment of inertia about the axis tangential but perpendicular to the surface will be