%0 Journal Article
%T The Precise Determination of Mass through the Oscillations of a Very High-Q Electromechanical System
%A Osvaldo F. Schilling
%J Journal of Electromagnetic Analysis and Applications
%P 91-95
%@ 1942-0749
%D 2013
%I Scientific Research Publishing
%R 10.4236/jemaa.2013.53015
%X <p class=\"MsoNormal\">
	<span lang=\"EN-US\">The present paper is based upon the
fact that if an object is part of a highly stable oscillating system, it is
possible to obtain an extremely precise measure for its mass in terms of the
energy trapped in the system, rather than through a ratio between force and
acceleration, provided such trapped energy can be properly measured. The subject
is timely since there is great interest in Metrology on the establishment of a
new electronic standard for the kilogram. Our contribution to such effort
includes both the proposal of an alternative definition for mass, as well as
the description of a realistic experimental system in which this new definition
might actually be applied. The setup consists of an oscillating type-II
superconducting loop subjected to the gravity and magnetic fields. The system
is shown to be able to reach a dynamic equilibrium by trapping energy up to the
point it levitates against the surrounding magnetic and gravitational fields,
behaving as an extremely high-<i>Q</i> spring-load system. The proposed energy-mass equation applied to the electromechanical
oscillating system eventually produces a new experimental relation between mass
and the Planck constant.</span><span lang=\"EN-US\"><o:p></o:p></span> 
</p>
%K Mass
%K Magnetic Levitation
%K Electromechanical Oscillations
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=29201