In 1929, Edwin Hubble announced that almost all galaxies appeared to be moving away from us. In fact, he found that the universe was expanding - with all of the galaxies moving away from each other. This phenomenon was observed as a redshift of a galaxy's spectrum. This redshift appeared to be larger for faint, presumably further, galaxies. Hence, the farther a galaxy, the faster it is receding from Earth.

If both Galaxy A and Galaxy B are moving at a million miles per hour (v) away from the point of the Big Bang, they are moving at 2 million mph (2v) away from each other.  And light arriving on earth from Galaxy B will arrive at c-2v as the earth moves away from the point where the light as emitted at c.  That means the light will be redshifted, and it will be redshifted at the same amount as measured as if B was moving away from A.  So, either way you do the calculations for the redshift, you will get the same result.

But, what about the Andromeda Galaxy, which appears blueshifted to us.  We know that the galaxies in the universe are not all moving away from each other, because we can see colliding galaxies.  They may look like the image below.


 
The problem is that light from a galaxy that is getting closer cannot be measured as c+2v.  There is no relationship to the Big Bang.  So, are we moving toward Andromeda, or is Andromeda moving toward the Milky Way?   Or both?

Which brings us back to Einstein's Second Postulate:

light is always propagated in empty space with a definite velocity c which is independent of the state of motion of the emitting body.

The story starts in the early 1900s, when astronomer Vesto Slipher measured the radial velocity of Andromeda — in other words, he calculated the speed at which the galaxy was moving toward or away from Earth. Slipher did this by looking for a telltale stretching or compression in the light from Andromeda arriving at Earth: Light from objects that are moving away from us is slightly stretched, or red-shifted. Light from objects moving toward us is blue-shifted, or compressed.

The result was a little bit surprising.

“We may conclude that the Andromeda Nebula is approaching the solar system with a velocity of about 300 kilometers per second,” Slipher wrote in the Lowell Observatory Bulletin in 1913

Astronomers have long known that the Milky Way and Andromeda, which is also known as M31, are barrelling toward one another at a speed of about 250,000 mph (400,000 kph).

In 2003, astronomers calculated that Andromeda is 2.57 million light-years away. And in 2004, astronomers redid Hubble’s Cepheid variable calculations, and determined that Andromeda was 2.51 million light-years. Another group used a different technique in 2005 to calculate that Andromeda was 2.52 million light-years away. And yet another technique in 2005 put it at 2.56 million light-years away. And so, the agreed distance of 2.54 million light-years is an average of the distances measured so far.

I will give this information to our tech and have him contact you…he is traveling now wont be back til Friday.

During the three weeks I spent wandering through postcard-perfect scenes of bustling markets, glittering pagodas and faded British hill stations I found it hard to believe I was travelling through a country that has one of the worst records for human-rights abuse in the world. To me, this is the most staggering thing about Burma: that the oppression of an entire nation of some 50 million people can be completely hidden from view. A vast network of Military Intelligence spies and their informers ensures that no one can do or say anything that might threaten the regime. The Burmese media—books, magazines, movies and music—are controlled by a strict censorship board and government propaganda is churned out not only through newspapers and television, but also in schools and universities. These methods of reality-control are kept firmly in place by the invisible, though ever present, threat of torture and imprisonment.

He told me that he currently had more students than he could handle, and taught seven or eight hour-long classes a day. ‘Our education system is absolutely going to the dogs,’ he said. ‘It’s just getting worse and worse.’ He moved some cross-word puzzles aside and dusted down a chair for me to sit on. ‘They no longer teach anything in the schools,’ he continued. ‘The pupils simply learn their lessons by heart. Everything is memorized, even subjects like mathematics. Students do not understand why seven multiplied by three is twenty-one: they just remember it.  If you ask them to do a sum that is not in the multiplication tables they have learned they will not be able to answer you.’ He leaned over and glared at me over his thick glasses. ‘This is not what you or I would call an education,’ he said.

Elected officials have opened the floodgates to prejudices that have for half a century been unacceptable or at least undercover. In a passionate introduction, Dawkins calls on us to insist that reason take center stage and that gut feelings, even when they don’t represent the stirred dark waters of xenophobia, misogyny, or other blind prejudice, should stay out of the voting booth.

Who then would rally against reason? The following statements will sound all too familiar.

‘I don’t trust educated intellectuals, elitists who know more than I do. I’d prefer to vote for somebody like me, rather than somebody who is actually qualified to be President.’

What other than this mentality accounts for the popularity of Donald Trump, Sarah Palin, George W. Bush – politicians who flaunt their ignorance as a vote-winning virtue? You want your airline pilot to be educated in aeronautics and navigation. You want your surgeon to be learned in anatomy. Yet when you vote for a President to lead a great country, you prefer somebody who is ignorant and proud of it, someone you’d enjoy having a drink with, rather than somebody qualified for high office?

A preeminent scientist -- and the world's most prominent atheist -- asserts the irrationality of belief in God and the grievous harm religion has inflicted on society, from the Crusades to 9/11.

In the interests of full disclosure right at the outset I must admit that I am not sympathetic to the conviction that creation requires a creator, which is the basis for all the the world's religions.

Brilliant scientist Rose Franklin has devoted her adult life to solving the mystery she accidentally stumbled upon as a child: a huge metal hand buried beneath the ground outside Deadwood, South Dakota. The discovery set in motion a cataclysmic chain of events with geopolitical ramifications. Rose and the Earth Defense Corps raced to master the enigmatic technology, as giant robots suddenly descended on Earth’s most populous cities, killing one hundred million people in the process. Though Rose and her team were able to fend off the attack, their victory was short-lived. The mysterious invaders retreated, disappearing from the shattered planet . . . but they took the scientist and her crew with them.

"Waking Gods" is the second of three books in "The Themis Files" series, the first of which I finished on July 1.  (I wasn't able to borrow #2 until August 8.)  As soon as I finished #2, I immediately started on #3, which I'll finish sometime today, since I only have about 2 hours and 20 minutes left to go.  The first book was about the discovery of a hand from a 200-foot tall, female-shaped robot, which was deliberately buried about 3,000 years ago.  When humans find all the parts, we assemble them and name it "Themis" after a female Greek god.  The second book is about an "attack" by similar but male-shaped alien robots that wipe out about ten major cities around the world, killing about two hundred million people, before one of the main characters in the books figures out a way to fight back using the original robot.  They manage to badly damage one of the male-shaped robots, and the rest just vanish.  I'll wait until I finish #3 before saying anything further.

August 11, 2019 - On Friday, I sent off a snail-mail letter to a major radar gun manufacturer.  I used that letter as a model to send out letters to two other radar gun manufacturers on Saturday.  I also sent emails to 2 lesser-known radar gun manufacturers yesterday.  The goal is still to find as many guns as I can which do what mathematicians consider to be impossible.  I've found one manufacturer who makes such guns, I'm hoping that some of the other five also have such guns - even if they are guns which do not run on batteries and have to be plugged into the cigarette lighter socket.  (You wouldn't be able to use such a gun inside a the rear of a truck, but you could still point it at the back of a truck going 60 mph from a car going 60 mph and get a reading of 60 mph.)

Meanwhile, last week as I was trying to figure out who else I could talk with about this, I remembered that, years ago, when I was tracking the investigation of the 2001 anthrax letters, I had exchanged emails with a scientist at a major U.S. scientific organization.  We'd last exchanged emails in 2014.  On Thursday, I sent off an email to him, and he immediately responded.  Since then we've exchanged several friendly emails about my paper "Radar Guns and Einstein's Theories," which he has read and passed on to others at his organization.

The discussions reminded me of something I'd argued about with mathematicians but didn't include in my paper.  It's an argument explaining why the wave theory cannot work with radar guns, even though that is the typical way radar guns are shown in illustrations. 



What a radar gun actually does is emit photons that oscillate at 24125000000 Hz, and in the situation illustrated above it gets back photons that oscillate at 24125004308.035 Hz.  The gun then compares the oscillation frequency of the photons it emitted to the oscillation frequency of the photons that returned and it computes the target's speed as 60 mph. 

1.  The illustration does NOT show waves that bounced off highway signs, trees, stones on the ground and off of different parts of the car.

2.  The illustration does NOT show light waves from the sun that bounce off of everything else that is visible in the area.

1. Give "no reading" (i.e., a speed of less than 10 mph) if the radar gun was in a vehicle traveling at 60 mph and the gun was pointed at the road ahead, or at parked cars or highway signs.

2. Give a reading of "60 mph" when the gun is in a vehicle moving at 60 mph and the gun is pointed at the back of a truck that is directly ahead and is also traveling at 60 mph.

during breakfast and lunch (except for the final session).

Needless to say, it's a travel book.  It describes the author's relatively recent visits to Machu Picchu and the visits by Yale Professor Hiram Bingham III one hundred years earlier, in 1911 and 1915.  Bingham is often considered to be the inspiration behind the fictional Indiana Jones.



The book generally alternates between a chapter describing Professor Bingham's adventures, and then a chapter describing the author's attempts to repeat what Bingham did.  It is very interesting, but reading it on a Kindle isn't recommended, since I kept wanting to see maps and pictures.  If there were maps at the beginning of the book (as there are in the paper editions), I don't remember them, and I had no way of knowing that all the pictures were at the end of the book.  You cannot easily flip from one part of a book to another on my Kindle.

I've traveled a lot in my time, and I'd always considered Machu Picchu to be one of the places I'd like to visit, but I never visited Mexico or anywhere in Central America, much less any place in South America.  And this book made me think it was probably fortunate that I never tried to visit Peru and Machu Picchu.  There are so many people visiting Machu Picchu these days, and the area is so small and delicate, that you have to make reservations many months in advance.  Plus, I spent most of the time wandering around alone in Japan and Thailand, and during my trips to Hong Kong, England, France, Germany, Holland, Belgium, Italy and Luxembourg,  I'm not sure I'd want to do that anywhere in Peru.  But, even without having easy access to maps and pictures, Turn Right at Machu Picchu was a very interesting and enjoyable book.

August 4, 2019 - A few days ago, while researching which papers and books use Einstein's actual Second Postulate (“light is always propagated in empty space with a definite velocity c which is independent of the state of motion of the emitting body”) instead of the distorted versions that appear in most textbooks, I came across http://www.neoclassicalrelativity.org/ which defines itself this way:

The Neo-classical Theory of Relativity (NCTR) uses concepts of Classical Mechanics and Classical Electromagnetism to describe the relativity of inertial motion better than it is described in the Special Theory of Relativity (STR) conceived by Albert Einstein in 1905.

The Neo-classical Theory of Relativity reveals the conceptual errors of Einstein’s Special Theory of Relativity and also explains why the STR doesn’t have a valid experimental basis.

The view held by the fourth group is that Einstein was wrong when he claimed that the speed of light is a constant and will be the same for all observers independent of their motion relative to the light source. People in this group also never compared what Einstein wrote to what college textbooks claim he wrote. They just accepted that he wrote what the textbooks say he wrote, and they argue that it cannot be right because it doesn’t agree with what they see happening in the world.

Dayton C. Miller’s 1933 article in this journal reviewed the results of his voluminous measurements obtained from his “ether drift” interferometer, and proclaimed to the world that he had determined “the absolute motion of the earth”. This claim has been embraced by some, rejected by many, and remains controversial today. 

For the first time, in 1925 and 1926, I made observations at Mount Wilson of such extent and completeness that they were sufficient for the determination of the absolute motion of the earth.

The absolute motion of the earth may be presumed to be the resultant of two independent component motions. One of these is the orbital motion around the sun, which is known both as to magnitude and direction. For the purposes of this study, the velocity of the orbital motion is taken as 30 kilometres per second, and the direction changes continuously through the year, at all times being tangential to the orbit. The second component is the cosmical motion of the sun and the solar system. Presumably this is constant in both direction and magnitude, but neither the direction nor magnitude is known; the determination of these quantities is the particular object of this experiment.

The orbital velocity of the earth being known, 30 kilometres per second, the cosmical velocity of the solar system, determined from the proportional variations in the observed effects, is found to be 208 kilometres per second.

"These measurements, confirmed by the Cosmic Background Explorer satellite in 1989 and 1990, suggest that our galaxy and its neighbors, the so-called Local Group, are moving at 600 kilometers per second (1.34 million miles per hour) in the direction of the constellation Hydra."

An analysis of various experiments demonstrates that absolute motion relative to space has been observed experimentally by Michelson and Morley, Miller, Illingworth, Torr and Kolen, and by DeWitte. The Dayton Miller and Roland DeWitte data also reveal the in-flow of space into matter which manifests as gravity.

The Einstein assumptions leading to the Special and General Theory of Relativity are shown to be falsified by the extensive experimental data. Contrary to the Einstein assumptions absolute motion is consistent with relativistic effects, which are caused by actual dynamical effects of absolute motion through the quantum foam, so that it is Lorentzian relativity that is seen to be essentially correct.

Crackpot shit, as usual 

This statement in the paper says it all:
  "This practice of measuring pulsar pulse rates from
   the center of the solar system indirectly confirms
   that light arrives at c+v and c-v rates at earth
   observatories, since, if the speed of light was
   the same for all observers, thus making the pulsar
   pulse rate the same for all observers, there would
   be no need to convert everything to barycenter counts.
   You’d get the same rate regardless of where you were
   in earth’s orbit around the sun."

'nuff said!   

 

I remembered writing about this before, and when I researched it I found that I'd mentioned the subject in my April 5, 2018 comment.  Then, a couple days ago, I went searching through Google images for something that I could use or modify that would show a pulsar being viewed from Earth at different times of the year.  This was the only image I could find:

It turned out to be from page 16 of the first version of my paper about Einstein's Second Postulate.  For some reason I'd cut it out of later versions, probably because what I wrote about it didn't mention pulses arriving at c+v and c-v.  Instead, I used estimated differences in pulse timings (+ 30 kps and - 30 kps).  The image is now on page 5 of my Pulsar paper.

It will be interesting to see how many views the new paper gets on both sites, but particularly on academia.edu where I can see which countries the views are coming from.  And the information is updated throughout the day.  Here is what the site shows for the first 3 views during the first 30 minutes that it was on-line:


So, the first viewer was at some university in Seattle, the second was someone in Burnaby, British Columbia, which is next to Vancouver, and the third was in Nottingham, Maryland, which is 11 miles northeast of Donald Trump's favorite city: Baltimore.  It will be interesting to see what the first day numbers are.
 
I also started a discussion about the paper on sci.physics.relativity.  

And I've also been thinking about my Radar Guns paper.  I'm hoping someone who read the paper has access to different kinds of radar guns, because it seems that even "complex" radar guns might give interesting readings if used inside a moving truck (or car or train).  I'm really hoping that some individual who read the paper is a child or friend or relative of a police officer and can persuade the officer to demonstrate a radar gun under the conditions defined in my paper.

 

Dear Ed,

Someone in the department of Istituto di Nanotecnologia at Consiglio Nazionale delle Ricerche (CNR) read your paper this week.

It is matching my intuitive understanding of light velocity in a medium and so independent from excitation source but not from receiver.
I didn't know it was also the original idea of Einstein and now I think you are right in saying that his conception has been misunderstood and distorted.

He then asked if I had actually performed the experiment described in my paper. I replied that I hadn't, because a basic radar gun costs about $1,000 and, even if I did buy such a gun and performed the experiment, no one would believe it.  So, I am looking for someone else to perform the experiment (while I continue to research radar guns to determine which gun would be best to use in experiments).

This morning I noticed that "top 2%" is a link.  So, I clicked it and found that it shows me (for free) the locations of people who have been reading my papers.  Here are the most recent:
 

I underlined in red two readers from Italy, one of whom is located at a university whose name takes 2 lines, and that reader has a "Role" at the university.  (If I become a Premium Member, presumably the blurred out names will be made visible.)  The other Italian reader is from a province in Sicily.

Meanwhile, this is what part of this morning's statistics from vixra.org look like:

A speed that is a PERCENTAGE OF THE SPEED OF LIGHT IS a speed that is RELATIVE TO THE SPEED OF LIGHT.

No, it isn't. This is physics, and the word "relative" has a very
specific meaning, which is not this.

Is 1/2 somehow "relative to 1" or "relative to 2" or "relative to 3" or
... -- your assertion simply does not make sense.

At best this is a PUN on "relative", which destroys your attempts to use it in place of "relative to the inertial frame in which the radar gun is at rest" -- that is a QUITE DIFFERENT meaning of "relative" than the wishy-washy one you made up (and which nobody else ever uses).

        If "relative to the speed of light" were correct, why do
        you suppose that no physicist ever uses it???? (I suppose
        that some idiots and crackpots might use it.)

β in special relativity is the velocity, v, of an object relative to the speed of light, c: β = v/c.  ...  β is dimensionless and equal to the velocity in natural units. Any expression which involves v, like the Lorentz factor, can be rewritten using β instead.

One indicator of the optical density of a material is the index of refraction value of the material. Index of refraction values (represented by the symbol n) are numerical index values that are expressed relative to the speed of light in a vacuum. The index of refraction value of a material is a number that indicates the number of times slower that a light wave would be in that material than it is in a vacuum.

The Beta ratio in special relativity [1] is commonly expressed as β = v/c where v is the velocity between two bodies, and c is the speed of light.

In this, β is the velocity of the particle relative to the speed of light in vacuum.

Mathematicians are like Frenchmen: whatever you say to them, they translate it into their own language, and forthwith it means something entirely different. — Johann Wolfgang von Goethe

A mathematician is a blind man in a dark room looking for a black cat which isn’t there. - Charles R Darwin

I knew a mathematician who said, "I do not know as much as God, but I know as much as God did at my age." - Milton Shulman

Physicists avoid highly mathematical work despite being trained in advanced mathematics, new research suggests.

The study, published in the New Journal of Physics, shows that physicists pay less attention to theories that are crammed with mathematical details. This suggests there are real and widespread barriers to communicating mathematical work, and that this is not because of poor training in mathematical skills, or because there is a social stigma about doing well in mathematics.

Me: I have repeatedly stated that a radar gun measures speeds relative to the local speed of light.

Tom: But that is impossible. No radar gun, or anything else, does that.

Me: That is EXACTLY what DOPPLER radar guns do.

Tom: Only in your personal FANTASY world.

In the real world, the one in which such radar guns exist, they emit a radar wave [@] of frequency f1, and receive a reflected wave from the target with frequency f2. They determine the target's speed RELATIVE TO THE RADAR GUN by heterodyning the two signals to get f2-f1 and applying the formula for Doppler shift. The speed of light has nothing to do with it [#]. The ground also has nothing to do with it (unless something fixed to the ground is the target).

        [@] Yes, WAVE. Your attempts to describe this in terms of "photons" are ludicrous.

        [#] The Doppler-shift formula depends on c, the symmetry speed of relativity. This is different from, but numerically equal to, the (vacuum) speed of light.  

"I want to emphasize that light comes in this form - particles. It is very important to know that light behaves like particles, especially for those of you who have gone to school, where you were probably told something about light behaving like waves.  I'm telling you the way it does behave - like particles."

In any academic setting, the scientists get along like a great big happy family' — with lots of bickering. Engineers tell physicist jokes,
physicists tell mathematician jokes, mathematicians tell engineer jokes, and it all goes around and around.

A mathematician became captain of the kind of ship that actually sinks on purpose — a submarine. His briefing speech to new sailors went as follows:
“ I have developed a simple method that you would do well to learn.
Every day, count the number of times the submarine has dived since
you boarded. Add to this the number of times it has surfaced. If
the sum you arrive at is not an even number— don’t open the
hatches!”

“I don’t think my directional signal is working,” a physicist complained to her friend the mathematician. “Would you mind getting out of the car to take a look?”
The mathematician walked over behind the car. “Okay, turn the
blinker on. Yes, it’s working; now it isn’t, now it is, now it isn’t . . .”

“And the result follows here quite obviously,” the cyberneticist
Norbert Wiener (1894—1964) once told a class.
One student timidly raised his hand and said,  Professor Wiener,
I’m afraid I don’t see it.”
“Very well,” said Wiener, “ Perhaps I can derive it by some other
method.” He gazed into space for a moment, then nodded. “Yes,” he
said, “by a completely different method precisely the same result.”
He beamed at the student.
“But, Professor Wiener, I still don’t understand.”
Wiener looked stern. “Young man, if you can’ t understand such
a simple matter as this, having seen it derived by two quite different
methods, I am afraid you will never be a mathematician!” 

According to Fields Medalist Enrico Bombieri, there are three kinds of mathematicians: those who can count, and those who can’t.

Ed Lake wants to think that “relative speed” as a physics term means the fraction of one speed compared to another speed.

Not knowing what any physics term means he feels free to just guess and then insist with high confidence that his blind guess is of course right. And he sees no point in learning what the physics term REALLY means. 

You are misusing, misunderstanding, the meaning of 'relative'. The word 'relative' has many different meanings (did you know that?). You Are totally mixing them up. Its like you are saying that 30 mph cant be relative because your relatives are humans (kin, people, family) and 30 is not a human but a number. You are using the word 'relative' as "my family". That is NOT the meaning of 'relative' as we are using it in physics. You have an EXTREMELY SEVERE reading & comprehension deficiency.

My car speedometer tells me my car is moving at 36 km/hr (10 meters/second) with respect to the ground. That 10 m/s speed is equal to 0.01 km/s and is equal to 3.3333x10^-8c.

Again you are saying that my car moving at 36 km/hr means its speed is being measured relative to the speed of light.

Do you not see the magnitude of your ignorance?