21. Gang Rao, Principle of in-transit change in wave frequency

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Volume 28: Pages 586-592, 2015

Principle of in-transit change in wave frequency

Gang Raoa)

Department of Physics, Capital Normal University, Xisanhuan Beilu No. 105, Beijing 100048, China

 

The principle of “in-transit change in wave frequency” (ITCWF) presented here is based on a simple experiment with water waves. The principle is exploited in describing wave transmission through a pipe and is suitable for interpreting both Doppler effect and ITCWF effect. We use the wave distribution excitation model to explain the cause of the ITCWF effect. We also point out that the gravitational redshift and the universal redshift can be universally explained by the ITCWF effect.

 

Le principe de “changement en-transit de fréquence d’ onde” (ITCWF) présenté ici est basé sur une expérience simple avec des vagues d'eau. Le principe est exploité dans la description de transmission des ondes à travers un tuyau et est apte à interpréter à la fois l' effet Doppler et l'effet ITCWF. Nous utilisons le modèle de distribution d'excitation d'onde pour expliquer la cause de l'effet de ITCWF. Nous rappelons également que le décalage vers le rouge gravitationnel et le décalage vers le rouge universel peuvent être expliqués universellement par l'effet de ITCWF.

 

Key words: In-Transit Change in Wave Frequency; Doppler Effect; Wave Transmission through a Pipe; Wave Distribution Excitation Model; Gravitational Redshift; Universal Redshift.

 

Received: July 25, 2015; Accepted: October 29, 2015; Published Online: November 21, 2015

 

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