Mathematicians, or people who have very mathematical minds, are often led astray when “studying” physics because they lose sight of the physics. They say: “Look, these differential equations — the Maxwell equations—are all there is to electrodynamics; it is admitted by the physicists that there is nothing which is not contained in the equations. The equations are complicated, but after all they are only mathematical equations and if I understand them mathematically inside out, I will understand the physics inside out.” Only it doesn’t work that way. Mathematicians who study physics with that point of view—and there have been many of them—usually make little contribution to physics and, in fact, little to mathematics. They fail because the actual physical situations in the real world are so complicated that it is necessary to have a much broader understanding of the equations.

What it means really to understand an equation—that is, in more than a strictly mathematical sense—was described by Dirac. He said: “I understand what an equation means if I have a way of figuring out the characteristics of its solution without actually solving it.” So if we have a way of knowing what should happen in given circumstances without actually solving the equations, then we “understand” the equations, as applied to these circumstances. A physical understanding is a completely unmathematical, imprecise, and inexact thing, but absolutely necessary for a physicist.

My guess is that it is expanding at different rates. The farther you are from the point of the Big Bang, the faster you are moving away from that point. The closer you are to the point of the Big Bang, the slower everything around you is expanding. And, meanwhile, everything that is equidistant from the point of the Big Bang is moving apart even slower.

Michal Karsznia: is cosmological constant a phenomenom answering this question? Universe expand everywhere equally. If what you are saying was t true, we could determine where center is. As we all know this is not the case. Scientifically speaking i am correct when i say each one of you reading this, is the actual center of the universe

Ed Lake: I would say that what we can measure in the OBSERVABLE universe could be very different if we could see the entire Big Bang universe.


Michal Karsznia: that is of course true as well. But i am still pretty sure that given all of observable universe we could determine that majority of its mass is slightly repelling from certain point in space. We do not see any evidence of it happening. Tho its interesting, we can see clearly that galaxies near end are influenced by much bigger clusters actually outside of visible universe

Ed Lake: I keep wondering if the blue shifted group of about 100 galaxies around Andromeda is moving toward us or are those galaxies just ahead of us as we all expand with the Big Bang. Why are all the blue shifted galaxies in the same general area? What is in the opposite direction from those blue shifted galaxies?

Daniel P. Leo: there is no origin point of expansion... All points have all ways existed since the big bang... All points are expanding from each other

Ed Lake: That is something that only makes sense to mathematicians. In reality, the Big Bang theory SAYS that everything was once in the same place and expanded outward from there. So, the Big Bang STARTED at some location in space. WHILE expanding, of course, everything is also moving away from everything else.

Daniel P. Leo: from my understanding essentially all points existed at the origin, and all points are expanding away from each other... space is expanding and as all space is the origin there is no center to the expansion. So there really isn't an origin point in space so much as an origin in time

Ed Lake: But that is totally MATHEMATICAL reasoning. It is about POINTS which do not exist. In reality, all the MATERIAL in the universe MUST have existed in some form prior to the Big Bang. Many people figure that form must have been some kind of super-hot, super-dense sphere. So, there would be NO space between the material in that sphere.

Then, for some reason, the pressure became too great and the sphere began expanding. It took 500 million years for the material in that original sphere to condense into the first stars and for the lights to turn on.

The material in that sphere must have expanded into "space." To argue that there was no space to expand into makes NO SENSE.

"Ladies and gentlemen, please sit down as we are approaching the equator. We must be prepared for the bump." The kids’ eyes would get a little wider and sure enough the plane would bounce up and down (lightly). There would be a little cheer and then he would look back at us with a big grin and comment on the mysteries of nature. 

Time works like a percentage of the speed of light. If a stationary object can be found in the universe, that object is moving at zero percent of the speed of light and a "second" has its maximum value. If an object moves at 100 percent of the speed of light, time is stopped and a second has its minimum value of zero. Anywhere in between, you can use this calculator: https://keisan.casio.com/exec/system/1224059993 

So there’s one company that makes all the eyewear you’ve ever heard of. It’s called Luxottica. They bought every single eyewear brand. First they bought all the major retailers, Sunglass Hut and Sears Optical and Target Optical and LensCrafters, and then they refuse to carry any eyewear brand that wouldn’t sell to them until they drove them to their knees and picked them up for pennies. And literally, if you’ve got any of the major eyewear brands, it’s Luxottica, and if you bought from any of the major retailers, it’s Luxottica, and if your lenses came from SLR, which is the largest lens manufacturer in the world, they came from Luxottica, and if your eye insurer is EyeMed, which is the largest insurer in America, it’s also Luxottica. And they’ve raised prices a 1000% in 10 years.

But there used to be 30 wrestling leagues, and now there’s one, and it’s owned by this billionaire, Trump donor, called Vince McMahon. He reclassified all the wrestlers as contractors, took away their health care, they’re dropping down in their 50s, and GoFundMe is full of famous wrestlers begging their fans for money to pay their medical bills. So if you’re a wrestling fan, you’re with the eyewear people.

Now, there are three talent agencies left in Hollywood, and all of the screenwriters fired all of their agents because the talent agencies are now all owned by private equity funds, and those private equity funds have decided that to increase their return on investment that the agencies are gonna start doing what’s called packaging, where they package a writer and a director and a whatever and they collect a fee from the studio for that package, and in exchange they agree to take less money for each of their clients. And so every screenwriter in Hollywood is there for you to fight for wrestlers and eyewear.

So if you talk to somebody on the street, and say, “What was the Big Bang?” People will say, “Well, it was an explosion where the universe started as a single point and then exploded out and that was the Big Bang.” And if you talk to a physicist usually what we’re talking about is something really different called the Hot Big Bang, where what we’re talking about is just simply the fact that the universe was hotter and denser and smaller in the past. And that just comes from the fact that the universe is expanding now and cooling and so if we go back in time we can dial that back and we see that the universe was hotter and denser and more compressed in some way. And that is completely incontrovertible, like that…

Mack: Yeah, the fact that the universe was hotter and denser and in some sense smaller in the past, and we can actually see it. And one of the things I think is kind of neat is the TV show, The Big Bang Theory, the beginning of the theme song is actually a really nice encapsulation of the Big Bang Theory. The whole universe was in a hot dense state nearly 14 billion years ago expansion started, just stop there that’s the Big Bang theory, that’s it.

Carroll: It’s exactly right, it didn’t use the word explode…

Mack: Nope.

Carroll: It didn’t say there was a point.

Mack: No, didn’t say there was a point, no singularity, and there may have been a singularity, it’s possible that before that fiery state that the universe was infinitely dense. It’s possible that we get back to that point, but there’s that fiery state was… We see the part that was about 380,000 years after the beginning. In the 380,000 years a lot happened and we don’t know at the very beginning of that if there was a singularity, we think probably there was this rapid expansion, inflation and what happened before that super rapid expansion in the first billionth of a billionth of a billionth of a second, we don’t really know.

Most people, however, think this is impossible.  Even though the gun is moving, and photons emitted at the back end have to catch up with the front end, most people believe you cannot measure the gun's speed unless the front end (the radome) actually moves away from the back end.  So, they believe the gun actually measures two speeds from two "targets" and, even when moving, the radar gun somehow magically knows which "target" is the ground and which "target" is a speeding car.  How?  They don't say.  The subject is avoided.



The image above (from the video HERE) shows the radar gun measuring its own speed and showing it as 31 miles per hour in the display window on the right. 

The image below (from the same video) shows the same radar gun measuring a target's speed as 67 mph and showing it in the display window on the left.



How does the gun know if it is moving or not?  It's a simple matter if the gun can measure its own speed internally, but how is it done when the gun can only measure the speed of external objects?  How does the gun know where to put the measured speed?  Does it go in the window on the right or on the left?

I was a computer programmer for many years, before becoming an analyst and a programming manager.  How would I program the gun to determine its own speed?  Do I program the gun to assume that the ground is the biggest "target" that sends back the most photons?   Would that be true if the gun was pointed at the back of a truck that was 40 feet away?  The calculator HERE says that at 40 feet, with a beam width of 12 degrees, most photons will hit the back of the truck within a circle that is just 8 feet wide.  And a 53 foot long semi-truck is 8½ feet wide.  Would the gun put the truck's speed on the "patrol speed" display?  If not, why not?

Things would be simplified so much if I could just borrow a "Type-1" radar gun for a half hour!  And then I could complete my paper about radar gun experiments.

The other unfinished paper is about the Big Bang and Einstein's Second Postulate.  There's nothing preventing me from working on and completing that paper -- except that I want to finish the experiment paper first.   Sigh.
 
Meanwhile, on the sci.physics.relativity discussion forum, I saw someone who calls himself "Starmaker" had started a new thread titled "Who Built the Pyramids?"  Curious, I read the first comment and found it was about a Fox News Story titled "Pyramid-shaped 427-foot asteroid set to whiz past Earth."  The Starmaker's comment included this statement:

I don't know who built the pyramids but it had to be from outer space. Martians maybe...

The importance of nonsense hardly can be overstated. The more clearly we experience something as “nonsense,” the more clearly we are experiencing the boundaries of our own self-imposed cognitive structures. “Nonsense” is that which does not fit into the prearranged patterns which we have superimposed on reality. There is no such thing as “nonsense” apart from a judgmental intellect which calls it that. True artists and true physicists know that nonsense is only that which, viewed from our present point of view, is unintelligible.

In general, physicists do not deal in nonsense. Most of them spend their professional lives thinking along well-established lines of thought. Those scientists who establish the established lines of thought, however, are those who do not fear to venture boldly into nonsense, into that which any fool could have told them is clearly not so. This is the mark of the creative mind; in fact, this is the creative process.

My first exposure to quantum physics occurred a few years ago when a friend invited me to an afternoon conference at the Lawrence Berkeley Laboratory in Berkeley, California. At that time, I had no connections with the scientific community, so I went to see what physicists were like. To my great surprise, I discovered that (1) I understood everything that they said, and (2) their discussion sounded very much like a theological discussion. I scarcely could believe what I had discovered. Physics was not the sterile, boring discipline that I had assumed it to be. It was a rich, profound venture which had become inseparable from philosophy. Incredibly, no one but physicists seemed to be aware of this remarkable development.

Many times my physicist friends have attempted to explain a concept to me and, in their exasperation, have tried one explanation after another, each one of which sounded (to me) abstract, difficult to grasp, and generally abstruse. When I could comprehend, at last, what they were trying to communicate, inevitably I was surprised to discover that the idea itself was actually quite simple. Conversely, I often have tried to explain a concept in terms which seemed (to me) laudably lucid, but which, to my exasperation, seemed hopelessly vague, ambiguous, and lacking in precision to my physicist friends.

The fact is that physics is not mathematics. Physics, in essence, is simple wonder at the way things are and a divine (some call it compulsive) interest in how that is so. Mathematics is the tool of physics. Stripped of mathematics, physics becomes pure enchantment.

I was in my thirties, and I'd just met one of my future wives, Marla Maples, who was twenty-one, maybe twenty-two, and at that time a nine-plus in the looks department, to be perfectly frank.  I was in Palm Beach, my wife Ivana was doing her thing, and I drove my Rolls- Royce over to The Breakers hotel to visit the legendary genius Roy Cohn, my extremely tough lawyer and personal friend.  Roy kept a suite at The Breakers, which had recently refused to let me buy two penthouses and combine them, the morons, because they'd now be so valuable as historic residences.  In the dozen years I'd known Roy, he had taught me about the importance of maintaining a strong, great suntan all year long, but I remember that day he was very pale, I guess he was sick by then.  AIDS, sad.  

 
If you use the distance between waves to measure the speed of a target, that distance between waves will also be shortened by movement of the emitter.

So, if you are traveling toward a target at 40 mph, and the target is coming toward you at 40 mph, the gun will display 80 mph as the target speed without measuring any "ground speed."  But, supposedly, the gun is also measuring its own speed by bouncing waves off of the ground.  How does the gun know it shouldn't add the ground speed to the target speed in that situation?  If it did, it would get 120 mph.  (Answer: radar guns emit photons, not waves.)

LIDAR guns measure distances.  But they only measure the distance to the target that is seen in the gun's gun-sight.  And, since you have to look through the sight to view the target, you can't really use a LIDAR gun while moving, not without becoming a "reckless driver" yourself. 

3. In X-Band traffic Radar, for every one mile per hour that a target vehicle is traveling, the reflected signal will be changed in which one of the following ways:

a. the speed of the reflected signal will be increased by one mile per hour.
b. the speed of the reflected signal will be increased 31.4 miles per hour.
c. the reflected signal will be shifted 5,280 waves per second.
d. the frequency of the reflected signal will be shifted 31.4 waves per second
e. None of the above

Every object in a state of uniform motion will remain in that state of motion unless an external force acts on it.

An inertial frame of reference in classical physics and special relativity possesses the property that in this frame of reference a body with ZERO NET FORCE acting upon it does not accelerate; that is, such a body is at rest or moving at a constant velocity.

a property of matter by which it continues in its existing state of rest or uniform motion in a straight line, unless that state is changed by an external force

Me:  It takes FORCE to move a truck.

Him:  It takes net force to change a truck's speed, but it takes zero net force for a truck to remain in uniform motion.  This is grade school physics.

Me:  It takes MORE FORCE to move a truck faster.

Him:  It takes no net force at all for a truck to move at any speed.  A truck will continue to move at its current speed, regardless of that speed, as long as zero net force is applied to it.  You're just getting confused because you are (amazingly) unacquainted with the basics of high school physics.  When objects encounter other objects, such as air, they exert mutual forces on each other.  The force provided by an engine through the drive shaft and wheels is equal and opposite to the forces exerted by other objects.  Net force is required to change the speed of an object, but not to maintain any speed.  The physics inside a sealed container depends only on the net force applied, i.e., the acceleration.

Me:  Friction does not negate the force.  Friction just determines how much force must be applied for the truck to reach a given speed.

Him:  Friction is a force, just like other forces.  The total net force on a uniformly moving object is zero.  It doesn't matter what combination of individual forces are applied, as long as they add up to zero.

The first postulate asserts that all the laws of physics are the same in all reference frames moving with constant velocity relative to each other. This postulate is a sweeping generalization of the principle of Galilean relativity, which refers only to the laws of mechanics. From an experimental point of view, Einstein’s principle of relativity means that any kind of experiment—mechanical, thermal, optical, or electrical—performed in a laboratory at rest must give the same result when performed in a laboratory moving at a constant speed past the first one. Hence, no preferred inertial reference frame exists, and it is impossible to detect absolute motion.

And also the situation where one of the astronauts was jogging in the rotating part of their space ship.


  
Those centrifuges were producing artificial gravity.  There's nothing "fictitious" about artificial gravity!  The absence of a centripetal force to offset the centrifugal force doesn't make the centrifugal force "fictitious" as the textbook says.  I did a Google search for the term "inertial systems" and found a Wikipedia page titled "Inertial Frame of Reference" and it uses the term "fictitious force" 22 times!  And they even have an web page article titled "Fictitious Force."  

Then I remembered the anthrax attacks of 2001.  So, we're supposed to believe that microbiologists use a "fictional force" when they use centrifuges to separate anthrax spores from growth and nutrient debris?  Really?

Groan!  The situation is worse than I thought!  And that makes me think that the paper I had begun writing about "Radar Gun Relativity Experiments" is more important than a paper about "Inertial and Non-Inertial Systems," and I really really need to find some way to get experiments done with a Type-1 radar gun.

November 15, 2019 - Another groan!, but also a Wow!  My subconscious awoke me again this morning with a new realization.  This time it woke me at 3:30 a.m., but I managed to get some sleep after my conscious mind finished thinking things through.  Suddenly I feel I need to write another new paper, before I write the new paper about my radar gun experiments.  The new new paper will probably be titled "Inertial and Non-Inertial Systems."

I recall reading a college textbook that stated that there are two types of systems, inertial systems and accelerating systems, in which Relativity experiments can be performed.  I remember arguing with someone that the train in Einstein's thought experiments was neither an inertial system nor an accelerating system.  It wasn't "inertial" because it was moving under power, an engine was pulling the car in which the experiments were being performed, and it wasn't "accelerating" because the engine was pulling the train at a constant speed.

The arguments I got from the mathematicians on the sci.physics.relativity discussion forum was that a train that is under power and is moving at a constant speed is "inertial."  And they believe that Einstein's FIRST Postulate says that all experiments work the same way in all inertial systems.  They specifically argue that the length of a second cannot be different in one inertial system versus another because that would violate Einstein's First Postulate: "the same laws of electrodynamics and optics will be valid for all frames of reference for which the equations of mechanics hold good."  

It wouldn't, of course.  A variable length of a second will produce different results in different "inertial systems" and "frames of reference," but no law of electrodynamics and optics would be broken, and all equations of mechanics would still hold good.   1+1=2 is just as valid as 1+3=4.

What I woke up thinking about this morning was gravity.  Suppose you have a true inertial system in a space ship coasting through space at 100,000 mph and a second system which mathematicians consider to also be "inertial," a train moving across a desert at a constant speed of 60 mph.  Virtually every experiment performed in those two "inertial" systems will produce different results.  The simplest experiment to perform to confirm that is dropping a ball to the floor from a height of 6 feet.  In the space ship, when you release the ball, the ball will remain where it is.  It will NOT fall.  There is no gravity to pull it downward.   On the train, the ball will fall to the floor.  The ball is affected by a significantly different amount of gravity on the train.  The results of those two experiments couldn't be more different, yet according to mathematicians they are both performed in an "inertial system" and cannot produce different results without violating Einstein's FIRST Postulate.

As I now see it, an "inertial system" can only exist in space, and there are several  different "non-inertial systems" in which us Earthlings can perform experiments, including an "accelerating system," which all will produce different results. 

I just need to find the time to write it all down in the form of a scientific paper.    

November 14, 2019 - Groan!  At about 4:30 this morning, my subconscious mind woke up my conscious mind to ask a question:  If radar guns emit waves that look like this:



what would happen if you tried to measure the speed of the whirling blades of a floor fan through the wire grid that surrounds the moving parts of the fan?


 
It's not a problem with photons.  Photons are extremely small, they travel at the speed of light to a blade, and before the blade can change position, atoms in the fan blade almost instantly emit NEW photons back to the gun.  The difference in the oscillation rates of the photon's energy fields sent-versus-received determine the speed of the blade.  Since even different parts of the tips of the blades move a different speeds, the gun measures the fastest speed.  Photons that hit the metal wire grid measure the grid to be stationary.

How would that work with waves?  First you have the problem of the wire grid.  If microwaves were like the waves shown above (or like water waves), the waves are going to break into a kazillion tiny waves like the double slit experiment with hundreds of slits.  The double slit experiment:

Set radar to Receive Only mode and scan for interference at operation site.

The Range Control is actually the receiver sensitivity setting. Long range, most sensitive, may make the radar susceptible to local interference. 

Type-1 radar guns do just one measurement.  They emit photons to the target and receive photons back from the target.  The gun then measures the difference in the oscillation frequencies of the emitted and received photons and computes the speed of the target.  Type-1 radar guns are considered to be “stationary only” guns, evidently because they produce controversial results when moving.

Type-2M radar guns do two measurements: (1) They measure the speed of a target and (2) they measure the speed of the gun.  They were designed and built to be used while moving.  When traveling at 60 miles per hour toward an approaching target that is traveling at 70 miles per hour, the gun will show a “patrol speed” of 60 mph and a “target speed” of 70 mph.

Type-2S radar guns also do those same two measurements.  However, Type-2S radar guns are intended to be used only while stationary.  When traveling at 60 miles per hour toward an approaching target that is traveling at 70 miles per hour, the gun will show a “relative” speed of 130 mph.  The gun has no ability to show two speeds.  If you use such a gun while moving, you need to logically figure out for yourself what speed the gun is displaying.   

Type-1 radars seem to be relatively few in number.  I was able to tentatively identify only one Type-1 radar gun, the fairly popular Stalker II SDR manufactured by Applied Concepts, Inc., in Richardson, Texas.  However, there could be others.  The Stalker II SDR’s list price is $1,600.

  

“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."

[A tuning fork] "vibrates which means the speeds of the tines are constantly changing at the frequency of the fork in a sinusoidal fashion. In addition, the max magnitude of the vibration depend on how hard the fork is struck.

"7.4 Fan Interference
Fan interference is the most common form of interference that you
are likely to experience. It is caused when the radar measures the
speed of the vehicle blower fan. Changing the fan speed causes a
proportional change in the display speed. To correct this, relocate the
radar gun so it does not display spurious speeds or turn off the fan
motor."

3. Perform the internal test sequence by pressing the TEST button.
The unit should display 60 mph.  You will also hear an audio tone
if the volume is turned up because a 60 mph signal is being sent
through the circuitry to perform the unit's internal check.  On
release of the TEST button, 8.8.8. should be displayed to verify
display operation.

4.  Perform system check with certified tuning fork by striking the
fork until is rings then place it about 2 inches in front of the lens.
Pull the trigger and the unit will read the speed inscribed on the
fork.