Category:
Journal Reprints
Keywords:
Ritz ballistic theory (BTR), Doppler effect, Ritz effect, acceleration affects, construction of Ritz effect, Hubble constant, Belopolsky, MMX, rheons, Sekerin, Cepheid stars
Filename:
Semikov_Universal Illusion[trans]_(2009)1-6.pdf
Comments:
Translated to English with Google Translate by Thomas E. Miles
Abstract:
Everyone knows the Doppler effect. It is he who underlies the work of the "radar", familiar to any motorist. But few people know about another curious effect akin to Doppler. We are talking about the Ritz effect, discovered a century ago, but never recognized by science. The Doppler effect is illustrated by the following example. Imagine a car rushing towards an observer. Due to the movement, the headlights of the car will seem to the observer a little blue than in reality. If the car is being carried away, the light of its taillights, on the contrary, will seem a little redder than the real one: the movement changes the frequency of the light. This is explained by the fact that when driving, the distance between the car and the observer changes. Therefore, two consecutive signals, say two shots from a car, will travel this distance at different times. This difference in travel times will decrease the period between signals for the observer. Likewise, for light, which is a periodic, wave process, motion transforms the period and frequency of the wave crests, i.e. color of light.
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