Some of the most frequent questions we get
from people new to Autodynamics:

What systems in relative motion and velocity sum?
       An explanation can be found in Systems in Relative Motion.

What about the claimed neutrino beams at Fermi Lab?
       They don't exist. An explanation can be found in Neutrinos at Fermi Lab.

Does Autodynamics allow for faster than light travel?
       Yes. Answered in Light Speed.

What does Autodynamics say about the Twin's Paradox?
       Time dilation is not a "real" phenomena. Therefore the twins stay at the same age. Also see Time Dilation.

How does AD conserve energy and momentum without the neutrino?
       Answered in "Missing Mass" &"Missing Momentum".

What do neutrino detectors detect if there are no neutrinos?
       The answer to this question is automatically given by scientists around the world when they discuss the necessity of shielding the equipment from cosmic rays and natural radioactivity underground that produces muons and electrons, etc., which are detected as "neutrinos" depending on the detector type.

Why do scientists spend so much money building equipment in deep mines or deep in the ocean?
     Because they are using the Earth as a filter for muons and electrons.

Why do scientists spend so much money shielding equipment from the natural radiation surrounding it?
       Because this natural radioactivity produces detections "like" neutrinos in the detectors. But high-energy cosmic rays penetrate the Earth and the natural radioactivity of the soil is present everywhere, both generating background phenomena like neutrino detections.

If decay and energy absorption are the fundamental mechanisms of the universe, how does Autodynamics describe particle acceleration?
       Answered in Decay and Energy Absorption.

Shouldn't the decay particles analogous to 'rocket fuel' be detectable? If not, why not?
       Answered in Particle Propellant.

Apparently, AD predicts the same particles as those predicted by mainstream physics, with two exceptions: a) AD eliminates the neutrino and b) AD adds an undetected particle(s) carrying away part of an accelerating particle's mass." Why can't we detect the particle(s) mentioned in (b)? Doesn't the addition of the particle(s) in (b) counter-balance any advantage by eliminating the neutrino?"
       Answered in Particle Propellant.

Engaging Issues Addressed

Four important issues commonly have engaged the interest of many in the scientific community in general and concerning AD:

Time Dilation -

Lorentz Invariance -

Lagrange Function -

Neutrino Spectrum -

We now address these topics with reguards to AD which has no problem with them. The problem, as will be demonstrated, regarding practical applications lies with the SR equations.