DOPPLER REFUTES EINSTEIN, CONFIRMS NEWTON

That the motion of the observer cannot change observed lengths is so obvious that only a highly deranged mind would claim the opposite (the Albert Einstein Institute, by asserting that "THE DISTANCES BETWEEN SUBSEQUENT PULSES ARE NOT AFFECTED", prove that they are not so deranged):

http://faculty.washington.edu/wilkes...erference..pdf
"Sound waves have speed c, and f and L are related by c=Lf. For an observer moving relative to medium with speed u, apparent propagation speed c' will be different: c'=c±u. Wavelength cannot change - it's a constant length in the medium, and same length in moving coordinate system (motion does not change lengths). Observed frequency has to change, to match apparent speed and fixed wavelength: f'=c'/L."

http://www.einstein-online.info/spotlights/doppler
Albert Einstein Institute: "The frequency of a wave-like signal - such as sound or light - depends on the movement of the sender and of the receiver. This is known as the Doppler effect. (...) In the above paragraphs, we have only considered moving sources. In fact, a closer look at cases where it is the receiver that is in motion will show that this kind of motion leads to a very similar kind of Doppler effect. Here is an animation of the receiver moving towards the source: (...) By observing the two indicator lights, you can see for yourself that, once more, there is a blue-shift - the pulse frequency measured at the receiver is somewhat higher than the frequency with which the pulses are sent out. This time, THE DISTANCES BETWEEN SUBSEQUENT PULSES ARE NOT AFFECTED, but still there is a frequency shift: As the receiver moves towards each pulse, the time until pulse and receiver meet up is shortened. In this particular animation, which has the receiver moving towards the source at one third the speed of the pulses themselves, four pulses are received in the time it takes the source to emit three pulses."

Accordingly, for all waves (light waves included), when the observer starts moving with speed v relative to the source (v is small so that the relativistic corrections can be ignored), the speed of the waves relative to the observer shifts from c to c'=c±v, in accordance with Newton's emission theory of light and in violation of Einstein's special relativity.

Pentcho Valev