[This article was written to encourage the conduct of Alice Law experiments and was sent by mail to some institutions.]

Where and When Does the Wavelength Change?
Han Erim
December 3, 2018


Here I will talk about a topic that will determine the future of physics. Where and when does the wavelength change? This is a critical question and the answer to this question has not yet been given. As you know, if a signal that a signal source sends is going towards a target that is in motion, the wavelength of the signal changes. This effect in physics is called Doppler Shift. Yes, the wavelength changes, but where and when does it change? I will answer the question right here right now and I will show you what kind of a result it leads to. 

The wavelength change occurs at the signal source and at the moment of signal emission. 

There are two more answers that can be given to this question: “The wavelength change occurs while the signal is moving on its path” and “The wavelength change occurs at the arrival target of the signal”. However, both these answers are extremely inconsistent. I will not get into an argument here. The important point is that where the wavelength changes is a matter that can be detected, and it must absolutely be detected by carrying out a measurement. I have given my own answer here. 

Please see what kind of a result the occurrence of wavelength change at the signal source and at the moment of signal emission leads to: 

Let’s talk about a signal source that broadcasts signals at a constant frequency. The speed of the signal that it sends towards a target that is in motion can be calculated according to the Wave Speed Equation in the following way:

Signal speed= Frequency of the Transmitter x Changed Wavelength


Therefore, the speed of a signal that goes towards a target that is in motion is always different than c. Doppler Equation clearly shows what the speed of a signal that goes towards a target that is in motion is. The part (c±v) in the equation is the speed of the signal that goes towards a target that is in motion. 


The real meaning of wavelength change in Doppler Equation is as follows: 


If we write the speed of the incoming signal for the arrival target of the signal, we will have summarized the situation for the Electromagnetic Interaction. Again we can easily see by making use of Doppler Equation that the speed of the incoming signal for the arrival target of the signal is always constant and “c”. If the target object is moving towards the signal source at “v” speed, the speed of the signal that is sent from the signal source is (c-v); therefore, the speed of the incoming signal for the target object is (c-v)+v=c. If the target object is moving away from the signal source at “v” speed, the speed of the signal is (c+v)-v=c. In other words, the speed of the incoming signal relative to the arrival target of the signal is always constant and c. 

The figure below shows the situation mentioned above.


Consequently, the measurements that are vital in physics have not been carried out. 
1. The speed of a signal that is moving towards a target that is in motion has not been measured. 
2. Where the wavelength change occurs has not been detected. 

I am not a physicist, but this does not mean I do not know physics. The fact that you are a physicist does not mean you have a full command of physics. I have shown you here a huge defect in physics. 

Please do not be indifferent to what I have written; and do not try to slur over the topic with theoretical answers. If you do so, you will put off the surfacing of the truth. And the more you delay it, the bigger and the more devastating the consequences of the new situation will be for you. 

This matter is now a part of the history of physics. Who and which institutions will carry out these measurements? This issue is locked onto this right now. Your part here is to contribute to the organization that open this lock and lead these measurements. 

When the measurements are carried out and the things written here are confirmed, physics will become free and move onto its new path. I explained what you will come across on this new path in my book “Alice Law – Transition to (c+v) (c-v) Mathematics in Electromagnetic Theory”. This book is the new roadmap for physics and it is an introductory book for everybody. You can access the content of the book on the website aliceinphysics.com

I would like you to carry out these two measurements that are of vital importance and announce the results. There are a lot of reasons why you should support these measurements. The simplest way you can support this is to sign the petition below and submit it to your administration.


I would like to thank you for your support.
Respectfully,
Han Erim

This article named “Where and When Does the Wavelength Change?" is registered at Istanbul, Beyoglu 37th Notary of Republic of Turkey with No: 22223 and Date: 4/December/2018.

PETITION


Date:...............


NAME OF THE RELEVANT INSTITUTION/ADMINISTRATION: ..................................................................... 


The two measurements below are of great importance for the future of physics. 

1. The measurement of the speed of a signal that is moving towards a target that is in motion.
2. The detection of where the wavelength change occurs. 


Thank you in advance your efforts in carrying out these two measurements and announcing their results. 

NAME and SIGNATURE

......................................

You can download the sample of petition from here:

petition.doc   (Word document)

petition.pdf   (PDF document)