If an object is spun in circular motion with a mass greater than the central object's,what happens physically?

Usually the mass of the central object is greater than the object that is in circular motion. Mathematically the period would become large if the mass of the object spinning is greater, but what would happen physically?If an object is spun in circular motion with a mass greater than the central object's,what happens physically?Physically, what happens is that both masses orbit a central point called the center of mass. The way you get the orbits in this case is to use reduced mass. See: http://en.wikipedia.org/wiki/Reduced_mas鈥?/a>



Watch this video about how it all works: http://www.youtube.com/watch?v=erKViZx8Q鈥?/a>If an object is spun in circular motion with a mass greater than the central object's,what happens physically?Nothin happens actually................

the centripetal force is varying so a relative mass change is what we can predictIf an object is spun in circular motion with a mass greater than the central object's,what happens physically?The Central object will fluctuate from its position as jupiter do upto some extent