An object comprises of a uniform ring of radius `R` and its uniform chord `AB` (not necessarily made of the same material) as shown. Which of the following can not be the centre of mass of object

For a uniform ring of mass M and radius R at its centre

Find the centre of mass of a uniform semicircular ring of radius R and mass M .

A rod is made of uniform material and has non-uniform cross section. It is fixed at both the ends as shown and heated at mid-section. Which of the following are not correct?

A uniform solid right circular cone of base radius R is joined to a uniform solid hemisphere of radius R and of the same density, as shown. The centre of mass of the composite solid lies at the centre of base of the cone. The height of the cone is

Find the moment of inertia of a uniform ring of mass M and radius R about a diameter.

A wheel comprises a ring of radius R and mass M and three spokes of mass m each. The moment of inertia of the wheel about its axis is

From a uniform disc of radius R , a circular section of radius R//2 is cut out. The centre of the hole is at R//2 from the centre of the original disc. Locate the centre of mass of the resulting flat body.

A uniform disc of radius R is put over another unifrom disc of radius 2R of the same thickness and density. The peripheries of the two discs touch each other. Locate the centre of mass of the system.

The radius of gyration of a uniform circular ring of radius R, about an axis which is a chord of circle of length sqrt3R is ,

The radius of gyration of a uniform circular ring of radius R, about an axis which is a chord of circle of length sqrt3R is ,