Selected Topics in Scientific Physics
Scientific Physics is physics based upon ordinary empirical scientific principles. Traditional orthodox physics has become mired down in mystical ideas, anti-scientific principles, and denials of obvious experimental facts. The evidence reviewed in this book proves space-time is absolute ? no "special relativity" nonsense. A cosmology is presented for an eternal, infinite, uniform in-the-large, steady-state, nonexpanding universe that fits all of the facts ? no impossible "big bang", no "curved space", no "expanding universe", no "bounded universe", etc. The far-reaching consequences of mass-energy equivalence (known in the 1800?s) are explored, yielding neomechanics in absolute space-time, a new gravitational theory, etc. An electrodynamic field theory is presented that agrees with Ampere?s original force law, with Weber electrodynamics for slowly varying effects, and predicts longitudinal electrodynamic K waves (recently observed), yields the force that drives the Marinov motor and that explains the Aharonov-Bohm effect ? no error-ridden Maxwell theory, no Faraday law of electromagnetic induction, no absurd Biot-Savart law, etc. The conditions for creating thermodynamic order are presented, which indicate why low entropy life exists, why stars are born from high entropy gas and dust, why territorial behavior of all organisms and man, etc. It is shown how quantum particles move along discrete trajectories as explicit function of time to yield all observed wave behavior. The empirically correct Wesley wave, Y = sin [p?(r-vt)/h], for free particles is generalized to yield wave equations for bound particles ? no "wave-particle duality", no single particle interfering with itself, no single particle going through both slits to produce interference, no "uncertainty principle", no intrinsic "probability amplitudes", no superposition of physical states, no "complementarity", no astrological "nonlocality", no thoughts affecting experimental results, no "indistinguishable" particles, no "expectation values" as observables, no "operator approach", etc.
[/pdf/abstracts/Phipps-BookReview-SelectedTopicsinScientificPhysics.pdf Book Review: Selected Topics in Scientific Physics] by [/php2/index.php?tab0=Scientists&tab1=Scientists&tab2=Display&id=170 Dr. Thomas E. Phipps Jr.]