269469 A mass is whirled in a circular path with a constant angular velocity and its angular momentum is\(\mathrm{L}\). If the length of string is now halved keeping the angular velocity same, the new angular momentum is

269470 A disc rotates with angular velocity wand kinetic energy\(E\). Then its angular momentum

269529 A thin uniform circular disc of mass \(M\) and radius \(R\) is rotating in a horizontal plane about an axis perpendicular to the plane at an angular velocity \(\omega\). Another disc of mass\(M\) / 3 but same radius is placed gently on the first disc coaxially. The angular velocity of the system now is

269530 Aturn table is rotating in horizontal plane about its own axis at an angular velocity 90rpm while a person is on the turn table at its edge. If he gently walks to the centre of table by which moment of inertia of system decreases by \(25 \%\), then the time period of rotation of turn table is

269469 A mass is whirled in a circular path with a constant angular velocity and its angular momentum is\(\mathrm{L}\). If the length of string is now halved keeping the angular velocity same, the new angular momentum is

269470 A disc rotates with angular velocity wand kinetic energy\(E\). Then its angular momentum

269529 A thin uniform circular disc of mass \(M\) and radius \(R\) is rotating in a horizontal plane about an axis perpendicular to the plane at an angular velocity \(\omega\). Another disc of mass\(M\) / 3 but same radius is placed gently on the first disc coaxially. The angular velocity of the system now is

269530 Aturn table is rotating in horizontal plane about its own axis at an angular velocity 90rpm while a person is on the turn table at its edge. If he gently walks to the centre of table by which moment of inertia of system decreases by \(25 \%\), then the time period of rotation of turn table is

269469 A mass is whirled in a circular path with a constant angular velocity and its angular momentum is\(\mathrm{L}\). If the length of string is now halved keeping the angular velocity same, the new angular momentum is

269470 A disc rotates with angular velocity wand kinetic energy\(E\). Then its angular momentum

269529 A thin uniform circular disc of mass \(M\) and radius \(R\) is rotating in a horizontal plane about an axis perpendicular to the plane at an angular velocity \(\omega\). Another disc of mass\(M\) / 3 but same radius is placed gently on the first disc coaxially. The angular velocity of the system now is

269530 Aturn table is rotating in horizontal plane about its own axis at an angular velocity 90rpm while a person is on the turn table at its edge. If he gently walks to the centre of table by which moment of inertia of system decreases by \(25 \%\), then the time period of rotation of turn table is

269469 A mass is whirled in a circular path with a constant angular velocity and its angular momentum is\(\mathrm{L}\). If the length of string is now halved keeping the angular velocity same, the new angular momentum is

269470 A disc rotates with angular velocity wand kinetic energy\(E\). Then its angular momentum

269529 A thin uniform circular disc of mass \(M\) and radius \(R\) is rotating in a horizontal plane about an axis perpendicular to the plane at an angular velocity \(\omega\). Another disc of mass\(M\) / 3 but same radius is placed gently on the first disc coaxially. The angular velocity of the system now is

269530 Aturn table is rotating in horizontal plane about its own axis at an angular velocity 90rpm while a person is on the turn table at its edge. If he gently walks to the centre of table by which moment of inertia of system decreases by \(25 \%\), then the time period of rotation of turn table is