On page 9 the author claims that a truck is not an inertial system. The author does not tell what "inertial" means here so apparently he tries to use it in its normal meaning, and fails. By the normal meaning of the word, a truck is inertial if its velocity with respect to some is constant. But more important is the Galilean principle of relativity: laws of nature are the same with respect to each of two reference frames if the velocity of one with respect to the other is constant. Therefore, no experiment inside a truck moving with constant velocity (i.e., without acceleration or turning) cannot determine the ground speed of the truck or whether the truck is stationary.

"a property of matter by which it remains at rest or in uniform motion in the same straight line unless acted upon by some external force."

Strictly speaking, Newton’s laws of motion are valid only in a coordinate system at rest with respect to the “fixed” stars. Such a system is known as a Newtonian, or inertial reference, frame. The laws are also valid in any set of rigid axes moving with constant velocity and without rotation relative to the inertial frame; this concept is known as the principle of Newtonian or Galilean relativity. A coordinate system attached to the Earth is not an inertial reference frame because the Earth rotates and is accelerated with respect to the Sun. Although the solutions to most engineering problems can be obtained to a satisfactory degree of accuracy by assuming that an Earth-based reference frame is an inertial one, there are some applications in which the rotation of the Earth cannot be neglected; among these is the operation of a gyroscopic compass. 

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

In theory, the device can measure its own speed relative to the local speed of light wherever it is located. It can measure the speed of a moving truck while inside the truck, it can measure the speed of an airplane while inside the airplane, and it should even be able to measure the speed of the International Space Station (ISS) from inside the ISS.

51.158.171.35 - - [10/Jan/2021:13:50:25 -0600] "GET /Imbecile Ed Lake is too stupid to realize that with his definition of Time he contradicts his previous claim that 'Time is a thing'...it turns out that he defines TIME AS A MEASUREMENT ... AKA, an idea, measuring is a human endeavour not 'a thing' HTTP/1.1" 404 - "-" "Mozilla/5.0 (Windows NT 10.0; rv:78.0) Gecko/20100101 Firefox/78.0"

Imbecile Ed Lake is too stupid to understand that his definition of Time is-CIRCULAR:'the measured or measurable period [OF TIME] during which an action, process, or condition exists or continues'---What a clueless moron!

Stupid Ed Lake can define Time whichever way he wants---HE is still measuring MOTION...NOT TIME ITSELF-   and what he is stating is that the MEASUREMENT OF MOTION began at the Big Bang ...NOT TIME ITSELF

The point is, rather, that the only meaningful way to measure physical change in Einstein's universe is to forget time “as such” and gauge change solely by the readings of real, physical clocks, not by some nonexistent notion of “time itself.”

Imbecile Ed Lake is too stupid to understand that for Einstein Time is a DIMENSION--%3EA mathematical construct used to plot the MEASUREMENT OF MOTION-and Time Dilation is just a variation on said dimension

When scientists began to explore the implications of Einstein's time for the universe as a whole, they made one of the most important discoveries in the history of human thought: that time, and hence all of physical reality, must have had a definite origin in the past. If time is flexible and mutable, as Einstein demonstrated, then it is possible for time to come into existence—and also to pass away again; there can be a beginning and an end to time. Today the origin of time is called “the big bang.”

For Aristotle, time was motion. This is hardly revolutionary: we perceive time through motion, whether the movement of the sun across the sky or the hands around a clock face. The concept of time as an independently existing thing, an entity in its own right, did not emerge until the European medieval age.

“The unusual properties of the velocity of light are: It is a constant for all observers, irrespective of how they are moving. It is a universal speed limit, which no material object can exceed. It is independent of the velocity of its source and that of the observer.”

“The unusual properties of the velocity of light are: It appears to be a constant for all observers, irrespective of how they are moving. It is a universal speed limit, which no material object can exceed. It appears to be independent of the velocity of its source and that of the observer.”

Let me try to illustrate this point in detail. Imagine switching on a flashlight momentarily, and sending a pulse of light off into space. The light will recede from you at 300,000 kilometers per second. Now jump into a rocket ship and zoom after it. Suppose the rocket achieves a speed of 200,000 kilometers per second relative to Earth. Common sense would say that the light pulse is now receding from you at only 100,000 kilometers per second. But, according to Einstein, this is not so: the pulse recedes at 300,000 kilometers per second both when you are standing on Earth and when you are zooming after the pulse at 200,000 kilometers per second. Whichever reference frame you measure the speed of the pulse from—Earth or rocket—you get the same answer! It doesn't matter how hard you chase the light pulse, you cannot reduce its relative speed by a single kilometer per second.

Speed is distance traveled per unit time, so the speed of light can only be constant in all reference frames if distances and intervals of time are somehow different for different observers, depending on their state of motion.

It is remarkable that, nearly a century after Einstein discovered the relativity of time, people are still thrown by the idea and keep raising the same objections. Even when they get a full explanation, many nonscientists simply don't believe it.

The point is, rather, that the only meaningful way to measure physical change in Einstein's universe is to forget time “as such” and gauge change solely by the readings of real, physical clocks, not by some nonexistent notion of “time itself.”

Time is a great teacher, but unfortunately it kills all its pupils.

Him:  Wait wait wait.  How can time have begun with the Big Bang?  There must have been something going on before the Big  Bang to cause the Big Bang.  So, how can time begin with the Big Bang?

Me:  Ah.  Yes.  We simply have different definitions of "time."  My definition is Einsteins' definition: "Time is what clocks measure."  You evidently have a more general definition that you cannot articulate.  Whatever happened before the Big Bang occurred when there was no time.  There were just events.  There was before and after, there was cause and effect, but there was no time.  That means we do not know how long anything took.  Whatever triggered the Big Bang could have taken 20 seconds or 20 trillion years.  There was no time, which means there was no way to measure how long it took for something to happen.

Him:  But things still happened!  And they happened in time!

Me:  Yes, things happened.  No, they did not happen in time.  Or more correctly, they may have happened in your general definition of time, but they didn't happen in Einstein's or my definition of time.  Your definition of time has no meaning: If something happened, it happened in time.  What is time?  It is where things happen.  Period.

Him:  And Event-A caused Event-B.

Me:  Yes.  We speculate that there must have been an Event-A to cause Event-B, because something caused particles to start to spin and measurable time to begin.  What is "unmeasurable time"?  It is your time.  It's time without meaning.  My idea of time begins when particles started to spin, creating measurable time that allows clocks to work.  It is time with meaning.

Him:  I think you are just making things more complicated than they need to be.

Me: Giving things meaning doesn't complicate them. It makes them understandable.  To define time as "when things happen" is just mouthing words with no real meaning.

Him:  I never gave that definition.  It is something you created.
 
Me:  Okay.  What is your definition of time?

Him: It's the dictionary definition.  I just looked it up.  It's "the indefinite continued progress of existence and events in the past, present, and future regarded as a whole."

Me:  That's your dictionary's definition.  My dictionary's definition is "the measured or measurable period during which an action, process, or condition exists or continues."

Him:  I like my definition better.

Me: Yes, and that is why people argue over the definition of time.  My definition is scientific, your definition is general and non-scientific. If you want to discuss science, you have to use my definition.  All your definition does is generate arguments.

Him:  I still like my definition better.

Me: If your goal is to generate arguments, your definition is definitely better.  My goal is to end arguments by determining what the facts are.  That's why I prefer my definition.

Him: It is not my goal to generate arguments!

Me:  Do you really want to start an argument about that?

Him:  What is time?

Me: Time is particle spin.

Him:  That cannot be.

Me:  Why not?

Him:  Because particle spin is motion, and motion occurs in time.  Therefore spin cannot be time.

Me:  Using that kind of reasoning, you are saying that time can only be a concept, it cannot be anything tangible that exists in time.  But we know time is not just a concept, since motion and gravity can slow down time.  We know that motion and gravity slow down particle spin, so time is particle spin.   We also know that photons are particles that do not spin, they oscillate.  And they can only exist in motion, traveling at the speed of light.  At the speed of light, they do not experience time.  You can argue that oscillations are motion, but oscillations are clearly not time.  So, motion and spin are not exactly the same.   

Him: But how can particle spin cause time?  Causes occur in time, they cannot be time.

Me: I didn't say particle spin causes time.  I said particle spin is time. Asking what causes time is asking what causes particle spin.  No one knows.  It appears to simply be how the universe is constructed.  It appears that the Big Bang produced particles which spin, and that started time.  Evidently, there was no time before the Big Bang because everything was so tightly compacted that nothing could spin.  When particles were released and able to spin, time began.  We can calculate how long it has been since particles began to spin by calculating how much time it must have taken for the expanding universe to reach its current state. 

Him: To me it seems that you are still saying that particle spin causes time.

Me: That is probably because you already have some idea in your head as to what time must be.  You probably believe that time is some kind of process, and you want to know when that process began and what caused it to begin.  Time is not a process.  It's not an idea.  It is particle spin.  Particle spin enables processes to happen, processes such as memory and aging and decay.  You can say that time "causes" memories, aging and decay, or you can say that particle spin "causes" memories, aging and decay.  Time and particle spin are the same thing.

Him: But particle spin is motion, and motion occurs in time, it cannot be time.

Me: Motion slows down particle spin, so they are not the same thing.  I suppose you could consider them to be two different "kinds" of motion.  And neither kind can exceed the speed of light, not separately nor together.  When a spinning particle moves through space it slows down.  The faster it moves, the slower it spins.  If it could reach the speed of light, the spinning would stop and time would stop.  Then we are once again in the realm of photons.  Photons are particles that do not spin, they oscillate.  And they travel at the speed of light.  They cannot go slower.  And they do not experience time.  They can travel though space forever.  Then we need to think about muons.  Muons are particles that are created when molecules in the air are hit by Gama ray particles.  Muons exist for only a very short time, but the faster they move, the longer they exist.

Him: Time might slow down for a muon, but we're talking about objects like humans and space ships. 

Me:  Muons are particles that spin.  Objects like you, me and space ships are constructed of atoms, which are in turn constructed of particles that spin.  If I am in a space ship, all the particles that are part of the space ship and part of me travel together at the same speed through space.  Our motion is nearly identical as we move through space.  So, we all experience time passing at the same rate - a rate that is slower than what is being experienced back on Earth.

Him:  Okay.  I can see that motion and spin are not always the same thing.  I need to think this over.
 
Me:  You do that.    

107.189.10.251 - - [06/Jan/2021:11:11:40 -0600] "GET /Stupid Ed lake does not understand that %22Time does not tick%22 it is highly illogical and it violates Causality HTTP/1.1" 404 - "-" "Mozilla/5.0 (Windows NT 10.0; rv:78.0) Gecko/20100101 Firefox/78.0"

Stupid Ed lake does not understand that Time Dilation only occurs in Relativity--alongside Length Contraction--   you can NOT have the one without the other

Stupid Ed lake does not understand that in Relativity Time is a DIMENSION not a "thing"

Stupid Ed lake does not understand that Time Dilation is a MATHEMATICAL TRICK courtesy of that mathematical construct named SPACETIME

Stupid Ed lake does not understand that Time Dilation is Mathematical Metaphysics    Its an AXIOM

Stupid Ed lake does not understand that its equaly as stupid to say that space expands in space and to say time slows down in time

A breakthrough came in mid-1912, about the time the Einsteins moved back to Zurich, where Albert took the post of professor at his alma mater, the ETH. Einstein came to the conclusion that a fully satisfactory general theory of relativity could be obtained only by giving up the normal rules of geometry. It was wrong to think that gravitation causes a distortion or warping of time, he realized—gravitation was a warping of time! More generally, both space and time must be warped. A gravitational field is not a field of force at all, but a curvature in the geometry of spacetime.

Over the past decade, airlines have also learned the dangers of the authority bias. In the old days, the captain was king. His commands were not to be doubted. If a copilot suspected an oversight, he wouldn’t have dared to address it out of respect for—or fear of—his captain. Since this behavior was discovered, nearly every airline has instituted crew resource management (CRM), which coaches pilots and their crews to discuss any reservations they have openly and quickly. In other words: They carefully deprogram the authority bias. CRM has contributed more to flight safety in the past twenty years than have any technical advances.    

77.247.181.163 - - [04/Jan/2021:15:58:12 -0600] "GET /STUPID  Ed  lake  still  does  not  seem  to  realize  that  ANY  type  of  spin  OCCURS  IN  TIME  so  spin--of  any  type--can  not  be  TIME  ITSELF HTTP/1.1" 404 - "-" "Mozilla/5.0 (Windows NT 10.0; rv:78.0) Gecko/20100101 Firefox/78.0"

77.247.181.163 - - [04/Jan/2021:15:59:02 -0600] "GET /STUPID  Ed  lake  still  does  not  seem  realize  that  PARTICLE  SPIN  speeds  up  IN  TIME---and  PARTICLE  SPIN  slows  down  IN  TIME---so  particle  spin  can  NOT  be  TIME  ITSELF HTTP/1.1" 404 - "-" "Mozilla/5.0 (Windows NT 10.0; rv:78.0) Gecko/20100101 Firefox/78.0"

77.247.181.163 - - [04/Jan/2021:15:59:37 -0600] "GET /STUPID  Ed  lake  still  does  not  seem  realize  that  particle  spin  is  A  TYPE  OF  MOTION  and  as  such---IT  OCCURS  IN  TIME  so  particle  spin  can  not  be  TIME  ITSELF HTTP/1.1" 404 - "-" "Mozilla/5.0 (Windows NT 10.0; rv:78.0) Gecko/20100101 Firefox/78.0"

Raffensperger: Mr. President, the problem you have with social media, they — people can say anything.

Trump: Oh this isn't social media. This is Trump media. It's not social media. It's really not it's not social media. I don't care about social media. I couldn't care less.  Social media is Big Tech. Big Tech is on your side. I don't even know why you have a side, because you should want to have an accurate election. And you're a Republican.

Raffensperger: We believe that we do have an accurate election.

Trump: No, no you don't. No, no you don't. You don't have. Not even close. You're off by hundreds of thousands of votes. And just on the small numbers, you're off on these numbers and these numbers can't be just — well, why wont? — Okay. So you sent us into Cobb County for signature verification, right? You sent us into Cobb County, which we didn't want to go into. And you said it would be open to the public. And we could have our - So we had our experts there they weren't allowed into the room. But we didn't want Cobb County. We wanted Fulton County. And you wouldn't give it to us. Now, why aren't we doing signature — and why can't it be open to the public? And why can't we have professionals do it instead of rank amateurs who will never find anything and don't want to find anything? They don't want to find, you know, they don't want to find anything. Someday you'll tell me the reason why, because I don't understand your reasoning, but someday you'll tell me the reason why. But why don't you want to find?

Stupid Ed lake does not understand that when he says *Time=Particle Spin* what he is really saying is *Time=Motion*   Motion occurs in Time---Motion stops in Time---Motion slows down in Time

Then it suddenly hit him, the key to the entire problem. Einstein recalled, "A storm broke loose in my mind." The answer was simple and elegant: time can beat at different rates throughout the universe, depending on how fast you moved. Imagine clocks scattered at different points in space, each one announcing a different time, each one ticking at a different rate. One second on Earth was not the same length as one second on the moon or one second on Jupiter. In fact, the faster you moved, the more time slowed down. (Einstein once joked that in relativity theory, he placed a clock at every point in the universe, each one running at a different rate, but in real life he didn't have enough money to buy even one.) This meant that events that were simultaneous in one frame were not necessarily simultaneous in another frame, as Newton thought. He had finally tapped into "God's thoughts." He would recall excitedly, "The solution came to me suddenly with the thought that our concepts and laws of space and time can only claim validity insofar as they stand in a clear relation to our experiences.... By a revision of the concept of simultaneity into a more malleable form, I thus arrived at the theory of relativity."

At the simplest level, an equation allows you to predict the results of an experiment without actually having to conduct it.

The wonderful thing about equations, however, is that they can also reveal deep connections between quantities that are not immediately apparent from the results of experiments, and in doing so can lead to a much deeper and more profound understanding of nature.

At the heart of Einstein’s theory of special relativity lie two proposals, which in the language of physics are termed axioms. An axiom is a proposition that is assumed to be true. Given the axioms, we can then proceed to work out the consequences for the real world, which we can check using experiments.

The first of Einstein’s axioms is that Maxwell’s equations hold true in the sense that light always travels through empty space at the same speed regardless of the motion of the source or the observer. The second axiom advocates that we are to follow Galileo in asserting that no experiment can ever be performed that is capable of identifying absolute motion. Armed only with these propositions, we can now proceed as good physicists should and explore the consequences. As ever in science, the ultimate test of Einstein’s theory, derived from his two axioms, is its ability to predict and explain the results of experiments. Quoting Feynman more fully this time: “In general we look for a new law by the following process. First we guess it. Then we compute the consequences of the guess to see what would be implied if this law that we guessed is right. Then we compare the result of the computation to Nature, with experiment or experience, compare it directly with observation, to see if it works. If it disagrees with experiment it is wrong. In that simple statement is the key to science. It does not make any difference how beautiful your guess is. It does not make any difference how smart you are, who made the guess, or what his name is—if it disagrees with experiment it is wrong. That’s all there is to it.”

If we could build a spaceship that could whisk us into space at speeds very close to light speed, then the distances to the stars would shrink, and the amount of shrinking would increase the closer to light speed we could travel. If we managed to travel at 99.99999999 percent of light speed, then we could travel out of the Milky Way and all the way to the neighboring Andromeda galaxy, almost 3 million light-years away, in a mere fifty years. 

It might seem like distances shrink because of your speed, just as it might seem like the distance to Walmart is shorter if you go 50 mph than if you go 30 mph, but it makes absolutely no sense to think of things that way.  Your motion does not change distances.  It only changes how time passes for you: time passes slower when you go faster, which is something the book says many times.

While the book was often a frustrating read, it was also thought provoking in that it gave me insights into the screwball way that mathematicians think, and that should help me understand them better, and enable me to create better arguments against their nonsensical beliefs.

December 31, 2020 (A) - I solved another mystery this morning.  It was kind of bizarre.  Yesterday, while grocery shopping at Walmart, I was checking out at one of the automated lines, and when I tried to pay with a $20 bill, the machine rejected the bill.  I tried it a second time, and it rejected it again.  So, I paid with a $10 bill that the machine accepted with no problem.

When I got home, I wondered why the bill was rejected.  I examined it and discovered it didn't have a "magnetic strip" like all the other 20s I had at home.  I never carry anything larger than a 20, and I get all my 20s from my bank.  Did the bank give me a counterfeit $20 bill??  It looked like a new, crisp $20, which seemed like another indicator that it might be a counterfeit.

I thought about it overnight, and this morning I did a little research.  I wondered how long the magnetic strip has been in use.  When I researched it, I discovered that there is a lot of stuff I didn't know about.

Here's what that $20 bill looks like (this isn't mine, it's one from the internet):

 

Just like my $20 bill, the bill above is "Series 1985" (stated in small letters just above the second L in Dollars).  Here's what the rest of my 20s look like:



They didn't add the magnetic strip until 1990.  Nor did they add any of the other security features until 1990.  So, my $20 bill appears to be a good $20 bill, even though it was rejected by the machine.  Interestingly, crisp new $20 bills from 1985 are worth as much as $40 to collectors, IF they have a star after the serial number, as the lower bill above has.  My $20 bill doesn't have the star.

So, I guess I'll have to get rid of my $20 bill from 1985 by handing it to a check-out clerk instead of inserting it into a machine.

Live and learn.

Like all attempts at human progress, the scientific approach works better in theory than in practice. Not all scientists doubt one another as effectively as they should. The need to impress scientists who occupy powerful positions, and who are sometimes swayed by factors that lie beyond their conscious knowledge, can interfere with science’s self-correcting ability. In the long run, however, errors cannot endure, because other scientists will discover them and promote their own careers by trumpeting the news. Those conclusions that do survive the attacks of other scientists will eventually achieve the status of scientific “laws,” accepted as valid descriptions of reality, even though scientists understand that each of these laws may some day find itself to be only part of a larger, deeper truth.

The Meridianstøtten was an obelisk on a small elevation in the middle of a graveyard of warehouses. I later learned that it was a memorial erected to celebrate the completion in 1840, on this very spot, of the first scientific measurement of the earth’s circumference. (Hammerfest’s other historical distinction is that it was the first town in Europe to have electric street lights.) I clambered up to the obelisk with difficulty, but the snow was blowing so thickly that I couldn’t read the inscription, and I returned to town thinking I would come back again another day. I never did.

There is no audible tick-tock everywhere in the world that could be considered as time. If physics wants to use time, it first has to define it. In this endeavor it is apparent that this definition necessarily requires a body of reference, and that this definition makes sense only with respect to this chosen body of reference. It turns out that one can define time relative to this body of reference such that the law of the propagation of light is obeyed relative to it. This definition of time can be realized for bodies of reference in any state of motion. But it turns out that the times of differently moving bodies of reference do not coincide. A more detailed justification of this is found in my popular book about the theory of relativity.[3] If two events occurring at different locations are judged simultaneous from a body of reference, then they are not judged so from a body of reference that is moving relative to it.

There is no omnipresent tic-tac audible in the universe that we could regard as time. If physics wants to make use of time, it first has to define it. In an effort to do this, it becomes clear that a reference body is needed for this definition, and that the definition only makes sense relative to this reference body. It turns out that one can define time in relation to this reference body in such a way that, relative to it, the laws governing light’s velocity are valid. This definition of time can be made for reference bodies in any state of velocity. However, it so happens that the times of differently moving reference bodies do not coincide. There is a more detailed proof of this matter in my popular book about the theory of relativity.[3] If two events happen simultaneously in two different locations judged from a reference body, they are not simultaneous if judged from another reference body moving relative to the first.

Good books about time dilation are hard to find. I probably have the names of a few filed away. I'll check tomorrow.

There might be books on time dilation somewhere, but mostly there are just scientific papers.

Stupid Ed lake does not understand Causality when he claims that *the cause of time will also occur in time*   utterly stupid

Stupid Ed lake does not understand that he can sit on other peoples lap but HE CAN NOT SIT ON HIS OWN LAP

Stupid Ed lake does not understand his claim that *the cause of time will also occur in time* is like saying that TIME SITS ON IT'S OWN LAP   utterly stupid

Stupid Ed lake does not understand that when he says *Time=Particle Spin* what he is really saying is *Time=Motion*   Motion occurs in Time---Motion stops in Time---Motion slows down in Time

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

I think it's coming along fairly well.  I've mostly finished with doing research, and I'm almost totally focused on just writing it.  I suppose I should have started with an outline, but I didn't, and as a result I'm constantly reorganizing the paper.

And, as I write, I'm analyzing what I'm writing.  When writing about radar guns, for example, I'll write about how the oscillation frequency of a photon is altered when the photon hits an oncoming target.  An atom in the moving target adds kinetic energy to the photon, sending a new photon back to the gun that has more energy than the photon the radar gun originally emitted. 

By definition, kinetic energy is a "form of energy that an object or a particle has by reason of its motion."  Also, "Kinetic energy is a property of a moving object or particle and depends not only on its motion but also on its mass."  That poses the question that mathematicians continuously ask: "Motion relative to what?"

Suppose you have two rocket ships encountering each other in outer space with a closing speed of 10,000 mph.  Mathematicians will argue that, since all motion is relative to some object, it can be argued that Rocket-A is moving at 10,000 mph toward Rocket-B, or that Rocket-B is moving at 10,000 mph toward Rocket-A.

But what happens if they don't notice each other and collide head on?



Answer: Their kinetic energy will show who is moving fastest.  It will be like billiard balls on a table.  The fast moving Ball-A will hit a stationary Ball-B with great kinetic energy, causing Ball-B to absorb nearly all of the kinetic energy from Ball-A and go shooting off to the corner pocket while Ball-A comes to a stop, because it transferred its kinetic energy to Ball-B.

With the two rocket ships, their kinetic energy will determine in which direction the collision debris will travel. 

The Internet is a magnificent repository of knowledge, and yet it’s also the source and enabler of a spreading epidemic of misinformation. Not only is the Internet making many of us dumber, it’s making us meaner: alone behind their keyboards, people argue rather than discuss, and insult rather than listen.

We all want to be taken seriously and to be respected. In practice, this means we don’t want anyone to think we’re dumb, and so we pretend to be smarter than we are. Over time, we even come to believe it.

Arguing at length with a conspiracy theorist is not only fruitless but sometimes dangerous, and I do not recommend it. It’s a treadmill of nonsense that can exhaust even the most tenacious teacher. Such theories are the ultimate bulwark against expertise, because of course every expert who contradicts the theory is ipso facto part of the conspiracy.

Unable to see their own biases, most people will simply drive each other crazy arguing rather than accept answers that contradict what they already think about the subject. The social psychologist Jonathan Haidt summed it up neatly when he observed that when facts conflict with our values, “almost everyone finds a way to stick with their values and reject the evidence.”

it’s normal for people to avoid saying they’re bad at something. As it turns out, however, the more specific reason that unskilled or incompetent people overestimate their abilities far more than others is because they lack a key skill called “metacognition.” This is the ability to know when you’re not good at something by stepping back, looking at what you’re doing, and then realizing that you’re doing it wrong. Good singers know when they’ve hit a sour note; good directors know when a scene in a play isn’t working; good marketers know when an ad campaign is going to be a flop. Their less competent counterparts, by comparison, have no such ability. They think they’re doing a great job.

Doctors routinely tussle with patients over drugs. Lawyers will describe clients losing money, and sometimes their freedom, because of unheeded advice. Teachers will relate stories of parents insisting that their children’s exam answers are right even when they’re demonstrably wrong. Realtors tell of clients who bought houses against their experienced advice and ended up trapped in a money pit. No area of American life is immune to the death of expertise. The American public’s declining capabilities in science and mathematics are enabling multiple public health crises from obesity to childhood diseases. Meanwhile, in the worlds of politics and public policy—where at least some familiarity with history, civics, and geography is crucial to informed debate—attacks on established knowledge have reached frightening proportions.

At a Wisconsin rally in early 2016, Republican candidate Donald Trump unleashed an attack on experts. In earlier debates, Trump had often been caught at a loss for words over basic issues of public policy, and now he was striking back. “They say, ‘Oh, Trump doesn’t have experts,’ ” he told the crowd. “You know, I’ve always wanted to say this… . The experts are terrible. They say, ‘Donald Trump needs a foreign policy adviser.’… But supposing I didn’t have one. Would it be worse than what we’re doing now?” Trump’s sneering at experts tapped into a long-standing American belief that experts and intellectuals are not only running the lives of ordinary people, but also doing a lousy job of it.

Consider the various ways in which Trump’s campaign represented a one-man campaign against established knowledge. He was one of the original “birthers” who demanded that Barack Obama prove his American citizenship. He quoted the National Enquirer approvingly as a source of news. He sided with antivaccine activism. He admitted that he gets most of his information on foreign policy from “the shows” on Sunday morning television. He suggested that Supreme Court Justice Antonin Scalia, who died from natural causes in early 2016, might have been murdered. And he charged that the father of one of his opponents (Ted Cruz) was involved in the Mother of All Conspiracy Theories, the assassination of John F. Kennedy.

Worse, voters not only didn’t care that Trump is ignorant or wrong, they likely were unable to recognize his ignorance or errors.

December 14, 2020 - Yesterday I finished converting to MP3 files all 192 of my cassette tapes of jazz and blues that I recorded off the radio and other sources over 25 years ago.  The listings I produced of what songs are on the cassettes indicate that I had 150 tapes on January 10, 1996.  On November 14, 1996, I produced another list of tapes #151 through #180, which I must have recorded during those 11 months.  The last numbered tape in the collection is #242, but I never got around to printing a listing that contained the final batch.  And I have no idea what happened to the missing tapes, since I have only 192.  Presumably, 50 tapes snagged and were destroyed in the tape player, since I have vague memories of ripping tapes out of some cassette player.  I don't recall that ever happening in recent years, although one tape snagged when I was copying it to an MP3 file.  I simply unsnagged it and copied it again.

And, of course, about a week ago I figured out what was wrong with my cassette player's connection to my amplifier and large speakers, so I am now listening to the cassettes instead of listening to the MP3 files.  That means I have to turn around and change or flip cassettes every 45 minutes, but it is good exercise.  I listen to the MP3 files when I'm reading in the afternoon, something I haven't had time to do recently.  And they'll be there when my cassette player finally goes blooey.  I've probably had it for nearly a quarter century. 
 
I also have 9 cassette tapes left to copy.  They are pre-recorded cassettes I purchased many years ago.  A box containing 2 of those cassettes is shown in the photo below along with the MP3 converter. 
 


I'm going to try to copy them song by song, instead of creating one MP3 file for an entire tape as I did with the other 192 cassettes.  That will require that I listen to the tapes as I copy them.  So, it will require two or three full evenings of my time, instead of just a few minutes every hour and a half while I'm watching TV or listening to podcasts.

Meanwhile, I have another chore to perform.  I need to get rid of about 475 CDs I burned from audio books I got in MP3 format from the library.



They are all the audio books I listened to while driving in the past few years.  It's illegal to sell them or to give them away, so I'll have to dump them in the trash.   I'm a guy who hates to throw anything away that once provided me with entertainment.  That's why I still have them all.  However, I'm determined to throw them away this week as part of some long-overdue house cleaning.

And today we'll all do a bit of housecleaning as the Electoral College votes to validate and designate Joe Biden as our 46th President.  That means that on January 20, 2021, America will finally throw out the heap of trash that has been fouling up the system since 2016. That's a day I'm really looking forward to.     

December 13, 2020 - Groan!  I've been working on my new paper, which is tentatively titled "Motion Relative to the Speed of Light," but it is very slow going.  I just spent about two days downloading, organizing and glancing through dozens of science papers about the Sagnac Effect, and then I spent more time studying the papers to see if they contained anything at all of value to me.  Some did, but it was usually part of something larger, making it difficult to quote it in my paper.  For example, the quote below

The principle of relativity is another such concept. Negative attitude of some Lorentzians with respect to it is the result of confusing of this physical principle with the philosophical principle of relativity of motion. While the first one, stating that the laws of nature have the same form in all inertial frames of reference, is quite sound and empirically well confirmed, the second one, stating that it only makes sense to speak about motions of bodies relative to other bodies, is not only wrong, but also incompatible with the very theory of relativity!

Thirdly, almost all Lorentzians reject Einstein's second postulate. Some points need to be clarified in this context. First of all, literally understood, this postulate states nothing more than the independence of light velocity of the motion of its source, which is common to the relativity theory and all ether theories, contrary to "ballistic" theories, like the one of Ritz. Unfortunately, this rather weak assumption is often confused with the so-called "constancy of light velocity hypothesis" (CLV), according to which the value of light velocity is always equal to the universal constant c in any inertial frame of reference. It is CLV that is usually contested under the misnomer "Einstein's light postulate". In fact, it is not identical with the second postulate, but it is a consequence of both postulates, taken in conjunction.