On energy and complementary energy formulations of acoustic and structural vibration problems

A physical approach, based on energy balances at element and at node levels, is utilized to derive both control volume and Galerkin finite element formulations of convection-type problems. This direct approach leads to the same systems of differential equations yielded by conventional formulations,

The energies, geometries, and vibrational frequencies of the experimentally uncharacterized fluorothioformyl, FCS, and chlorothioformyl, CICS, radicals are predicted from ab initio theory. Theoretical results for the thiocarbonyl halides, F&S and CI,CS, are presented for calibration of the methods a

This paper discusses the acoustic wave motion, time-averaged thermoacoustic heat transportation and energy transformation in sound channels. The thermoacoustic effects are caused by the thermal interaction of the oscillatory gaseous fluid and the solid wall media. A closed set of longitudinal thermo

The energy ¯ow analysis method was used to predict the structural vibration response and the radiated sound power of a plate excited by wall pressure ¯uctuations under turbulent boundary layers, and separated±reattached ¯ows. This method allows the spatially averaged energy density response to be ca