A solid sphere of mass M and radius R is divided into two unequal parts. The first part has a mass of `(7M)/(8)` and is converted into a uniform disc of radius 2R. The second part is converted into a uniform solid sphere. Let `I_(1)` be the moment of inertia of the disc about its axis and `I_(2)` be the moment of inertia of the new sphere about its axis. The ratio `(I_(1))/(I_(2))` is equal to __________ .

A solid sphere of mass M and radius R is divided into two unequal parts. The first parts has a mass of (7M)/8 and is converted into a uniform disc of radius 2R. The second part is converted into a uniform solid sphere. Let I_(1) be the moment of inertia of the uniform disc about its axis and I_(2) be the moment of inertia of the sphere made from remaining part about its axis. The ratio I_(1)//I_(2) is 140/x . Find the value of x.

A solid sphere of mass m & rdius R is divided in two parts of m mass (7m)/(8) & (m)/(8) , and converted to a disc of radius 2R & solid sphere of radius 'r' respectively. Find (I_(1))/(I_(2)) , If I_(1) & I_(2) are moment of inertia of disc & solid sphere respectively

A solid sphere of mass m & rdius R is divided in two parts of m mass (7m)/(8) & (m)/(8) , and converted to a disc of radius 2R & solid sphere of radius 'r' respectively. Find (I_(1))/(I_(2)) , If I_(1) & I_(2) are moment of inertia of disc & solid sphere respectively

A solid sphere of mass m & rdius R is divided in two parts of m mass (7m)/(8) & (m)/(8) , and converted to a disc of radius 2R & solid sphere of radius 'r' respectively. Find (I_(1))/(I_(2)) , If I_(1) & I_(2) are moment of inertia of disc & solid sphere respectively

A solid sphere of mass m & rdius R is divided in two parts of m mass (7m)/(8) & (m)/(8) , and converted to a disc of radius 2R & solid sphere of radius 'r' respectively. Find (I_(1))/(I_(2)) , If I_(1) & I_(2) are moment of inertia of disc & solid sphere respectively

The moment of inertia of a solid sphere of mass M and radius R about its diameter is I. The moment of inertia of the same sphere about a tangent parallel to the diameter is

The moment of inertia of a solid sphere of mass M and radius R about the tangent is

The diagram shows a uniform disc of mass M & radius ' a ', if the moment of inertia of the disc about the axis XY is I , its moment of inertia about an axis through O and perpendicular to the plane of the disc is

The diagram shows a uniform disc of mass M & radius ' a ', if the moment of inertia of the disc about the axis XY is I , its moment of inertia about an axis through O and perpendicular to the plane of the disc is