You are not logged in.
Pages: 1
Find the moment of inertia of a disc of mass m and radius r with a point mass of m on its circumference. i cant work this out can someone help me. i can work out that the moment of inertia of the disc is 1/2mr^2 but i dont know what to do with the point mass. i think it could have to do with some thing with the parallel axes theorem. the answer at the back of the book is 11/2 ml^2
Offline
Where does l come into picture? Did you look at the answer of another problem? M.I. of point mas at radius r is mr^2. Add it to that of disc and you get 3/2 m r^2.
Last edited by thickhead (2016-08-30 15:34:17)
{1}Vasudhaiva Kutumakam.{The whole Universe is a family.}
(2)Yatra naaryasthu poojyanthe Ramanthe tatra Devataha
{Gods rejoice at those places where ladies are respected.}
Offline
It is a nice idea to use parallel axis theorem for the point mass.
I_o=I_g+mr^2 For a point mass I_g=0. So I_o=mr^2.
{1}Vasudhaiva Kutumakam.{The whole Universe is a family.}
(2)Yatra naaryasthu poojyanthe Ramanthe tatra Devataha
{Gods rejoice at those places where ladies are respected.}
Offline
Pages: 1