Worked example 7.3: Amusement park ride
Question: An amusement park ride consists of a vertical cylinder that spins about a vertical axis. When the cylinder spins sufficiently fast, any person inside it is held up against the wall. Suppose that the coefficient of static friction between a typical person and the wall is $\mu=0.25$. Let the mass of an typical person be $m=60 {\rm kg}$, and let $r=7 {\rm m}$ be the radius of the cylinder. Find the critical angular velocity of the cylinder above which a typical person will not slide down the wall. How many revolutions per second is the cylinder executing at this critical velocity?
I without going into them I'll say a few, tamarack plumbob mineshaft experiment,light shield test ,dayton millers interferometry ,the allais effect ,the spinning ball experiment ....yadda yadda
