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Comments for Friday, July
1, 2022, thru Sat., July 9, 2022:
July 2, 2022 - Hmm.
On June 30 I mentioned that I'd filled up my
gas tank when the price of gas was $4.789 per
gallon. I probably
should have expected it,
but the next day the price
dropped 9 cents to $4.699 per gallon. So, if I had
waited a day,
I could have
saved about 68
cents. Sob
sob.
On the
positive side,
the last time
I filled up my
tank was on
May 26 when
the price was
$4.489 per gallon. The price of
gas may have
gone up 30
cents per
gallon during
that time, but
the average
driver
probably
filled up his
tank 3 or 4
times during
that same
period, and he
probably put
in 12 to 15
gallons each
time, while I
only put in 7½
gallons.
July 1, 2022 - I'm
working on Chapter 14 of my new book, which
is still tentatively titled "Logical
Relativity." Chapter 14 is
tentatively titled "Quantum Mechanics vs
Relativity," but I've been thinking of
changing the title to "Mathematics versus
Reality." The conflict seems to
stem from the fact that mathematics appears
to be the only thing of interest to
mathematicians. How mathematics
represents reality is of little concern to
them, unless someone presents a
reality-based problem as a mathematical
equation and asks for opinions about
it. However, even then the arguments
will typically favor a mathematical model
over reality.
About a week ago, I started to realize I was
occasionally reading about a term I had
never researched: Relativistic Quantum
Mechanics. I did a Google search
for the term and was shown 15 books on the
subject:
1. Relativistic
Quantum Mechanics by James D.
Bjorken & Sidney D. Drell
2. Relativistic
Quantum Mechanics by Tommy
Ohlsson
3.
Relativistic Quantum Mechanics
by Paul Strange
4.
Relativistic Quantum
Mechanics by
Hartmut M. Pilkuhn
5.
Relativistic Quantum
Mechanics by Armin
Wachter
6.
Relativistic Quantum
Mechanics: An Introduction
to Relativistic Quantum
Fields by Luciano Maiani
& Omar Benhar
7.
Relativistic Quantum Mechanics -Wave
Equations by Walter Greiner
8. Relativistic
Quantum Mechanics and Field Theory
by Franz Gross
9. Relativistic
Quantum Mechanics and Quantum Fields
by Ta-You Wu & W-Y Pauchy Hwang
10. Relativistic
Quantum Mechanics And Introduction To
Quantum Field Theory by Anton
Z. Capri
11. Relativistic
Quantum Mechanics and Quantum Field
Theory by Varadarajan
Devanathan
12. Relativistic
Quantum Mechanics And Introduction To
Quantum Field Theory by
Francisco Y. Yndurain
13. An Introduction
to Relativistic Quantum Field Theory
by Silvan S. Schweber
14. Relativistic
Quantum Mechanics of Leptons and
Fields by Walter T. Grandy,
Jr.
15. Relativistic
Quantum Mechanics and Field Theory of
Arbitrary Spin by Volodimir
Simulik
and 3 books about
NON-relativistic Quantum Mechanics:
1. Quantum Mechanics
– Non-Relativistic Theory by
L. D. Landau
2. Non-Relativistic
Quantum Mechanics by Anton Z.
Capri
3. An Elementary
Introduction to the Formal Theory of
Non-relativistic Quantum Mechanics
by Daniel T. Gillespie
But none of
them seemed to answer my question: What IS
Relativistic Quantum Mechanics?
However, my Google search also found a
Wikipedia page on the topic.
That page says,
In physics, relativistic
quantum mechanics (RQM) is
any Poincaré
covariant formulation of quantum
mechanics (QM). This theory is
applicable to massive
particles propagating at all velocities up to
those comparable to the speed of light c,
and can accommodate massless
particles. The theory has
application in high energy physics,[1]
particle
physics and accelerator
physics,[2]
as well as atomic physics,
chemistry[3]
and condensed
matter physics.[4][5]
Non-relativistic quantum mechanics
refers to the mathematical
formulation of quantum mechanics
applied in the context of Galilean relativity,
more specifically quantizing the equations
of classical
mechanics by replacing dynamical
variables by operators.
Relativistic
quantum mechanics (RQM) is quantum
mechanics applied with special
relativity. Although the earlier
formulations, like the Schrödinger
picture and Heisenberg
picture were originally formulated
in a non-relativistic background, a few
of them (e.g. the Dirac or path-integral
formalism) also work with special
relativity.
My task is to simplify all
that. This sentence: "Relativistic
quantum mechanics (RQM) is quantum
mechanics applied with special relativity."
seems as simple as they can get, but what
does "applied with special relativity"
mean? Digging through the page, it
seems to mean that they modify some
mathematical model from Quantum Mechanics to
include something from a mathematical model
for Special Relativity.
Another thing that bothered me about all
this is that all 18 books listed above
are written by physics teachers
who do not seem to like the explanation
of "relativistic Quantum Mechanics" found in
other college textbooks, so it appears that
each one created a TEXTBOOK of his own that
he will use in his class and other teachers
can use in their classes.
The first book on the list includes a
statement in the Preface that says the
author doesn't advocate any particular
view about relativistic quantum mechanics
because "The
unsatisfactory status of present-day
elementary particle theory does not
allow one such a luxury."
So, it seems the authors are presenting
their theory on a "take it or leave it"
basis. They're just describing the
theory as they understand it.
I'm advocating Einstein's view of reality
in my book. It appears that all the
advocates of "relativistic quantum theory"
have their own theories, and reality is not
a factor in any of them.
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Comments for Sun., June
26, 2022, thru Thurs., June 30, 2022:
June 30, 2022 - This
afternoon my gas gauge showed
that my tank was less than half
full, so I filled it up.
The price was still $4.789 per gallon. I
bought 7.537 gallons, for a
total cost of $36.09. I
think that may be the first time
in my life that I payed that
much for a fill-up.
According to the Internet, the
gas tank on my 2014 Chevy Malibu
has a 18.5 gallon
capacity. So, I had more
than half a tank-full when I did
the fill-up. But it also
gave me something to write a
comment about.
June 28, 2022
- Hmm. This morning, as
part of my regular routine to start
the day, I checked to see if there
were any interesting arguments
happening on the
sci.physics.relativity forum. At first,
it seemed to be the same old
thing, people just arguing over
words or contradictory
ideas. But then I noticed
an interesting post from "The
Starmaker." He was asking
a new version of a question that
he'd asked previously at 10:24
PM the previous night. At
that time he asked,
I
just don't understand
if
a clock is at a mountain and
the
other clock is on the ground
level...
how
does time dilation occur at both
clocks
at
the same time?
When no one answered that question, he
restated it at 12:26 AM this morning:
I
mean, does time dilation make both
clock
run faster? Or slows down one of
them and at the same
time
speeds the other clock? Or just
ignore one of them?
That's when a terrific answer occurred
to me. So, I replied with this
comment:
Time
ticks slower for the higher clock.
If there was a third clock at the
bottom of a mine shaft a thousand
feet below ground level, that
clock would tick slower than the one
at ground level. If there was
a fourth clock in a balloon two
thousand feet above the mountain top,
it would tick faster than the clock
on the mountain top.
The
greater the amount of gravity that
pulls on the clock, the slower the
clock will tick.
Why
hadn't I thought of that
before?! I've
seen countless arguments over which of
two clocks is ticking fastest, with
people arguing that it all depends
upon your point of view (or frame of
reference). Using four
clocks at different altitudes makes
the frame of reference arguments a lot
harder to visualize and argue.
But, within minutes there were two
responses to my comment. The
first was from "J.J. Lodder" who
wrote:
You
are almost there, but it is NOT the
pull of gravity that does it. The
rate difference is given by the
Newtonian potential.
(in
the Newtonian approximation)
Since
the Newtonian potential is about 60
km^2/sec^2,
and
the speed of light squared is about
10^11 km^2/sec^2
this
approximation is very good indeed,
(on
Earth and nearby)
Then
an Einstein hater who logs in as
"maluw...@gmail.com" wrote:
Against
of course, the Holiest Postulate of
your
idiot guru, demanding all of them to
tick
at
the same rate and demanding you to
mumble
that
"they're ticking at the same rate,
but their
different
spacetime trajectories
blahblahblah."
I'm
not sure what either one of them are
arguing, so I didn't respond. It
seems they are taking a very simple
question and a simple answer and
adding in all sorts of complications
to make things fit their points of
view. So, I'm just waiting to
see if "The Starmaker" responds, but
that might not be until some time late
tonight.
I probably shouldn't have mentioned
"the pull of gravity," since someone
will probably argue that gravity
"pushes" it doesn't "pull". I
should just have said, "the greater
the amount of gravity that affects
the clock, the slower the clock
will tick." But that's one
reason why I occasionally post there,
to find the right way to phrase things
if I want to get the fewest arguments
over words.
June 26, 2022 -
Yesterday afternoon, as I was driving home
from doing some chores, I finished listening
to the 9th CD in the 9-CD audio book version
of "Calling
Bullshit: The Art of Skepticism in a
Data-Driven World" by Carl T.
Bergstrom & Jevin D. West:
I "borrowed" the book from my local library
on February 12, and burned CDs from the MP3
files they loaned me. What I failed to
do, however, was get the PDF supplementary
file that came with the audio book.
The book is filled with references
to the charts and graphs and images in the
PDF file, charts and graphs which show how
data can be distorted on charts and
graphs. But, I probably wouldn't have
been able to study the PDF file images while
driving, anyway. That may be the
reason I also got the Kindle version.
So, I could check the charts and graphs when
I got home.
All in all, it was a very interesting book,
and I can highly recommend it, just not
the audio book version if you plan to
listen while driving.
Here's a long quote from early in the book:
Retracing the path of a rumor’s spread is
largely a matter of looking at who shared
what with whom and in what order, all
information that is readily available
given adequate access to the system.
Tweets about crises are particularly
consequential. The concentration of
attention during these events creates both
the incentive to generate misinformation,
and a vital need to refute it.
One such crisis was the terrorist bombing
of the Boston Marathon in 2013. Shortly
after the attack, a tragic story appeared
on Twitter. An eight-year-old girl was
reported to have been killed in the
bombing. This young girl had been a
student at Sandy Hook Elementary School,
and she was running the marathon in memory
of her classmates who were killed in the
horrific mass shooting that had occurred
there a few months prior. The terrible
irony of her fate, surviving Sandy Hook
only to die in the Boston Marathon
bombing, propelled her story to spread
like wildfire across the Twitter universe.
The girl’s picture—bib #1035 over a
fluorescent pink shirt, ponytail streaming
behind her—led thousands of readers to
respond with grief and compassion.
But other readers questioned the story.
Some noted that the Boston Marathon does
not allow kids to run the race. Others
noticed that her bib referred to a
different race, the Joe Cassella 5K.
Rumor-tracking website Snopes.com quickly
debunked the rumor, as did other
fact-checking organizations. The girl
hadn’t been killed; she hadn’t even run
the race. Twitter users tried to correct
the record, with more than two thousand
tweets refuting the rumor. But these were
vain efforts. More than ninety-two
thousand people shared the false story of
the girl.
And here's a quote from near
the end of the book:
Calling bullshit is more than a party
trick, a confidence booster, or a way to
sound impressive in front of your boss. It
is a moral imperative. As we note in the
opening line of the book, the world is
awash with bullshit—from clickbait to
deepfakes. Some of it is innocuous, some
is a minor annoyance, and some is even
funny. But a lot of the bullshit out there
has serious consequences for human health
and prosperity, the integrity of science,
and democratic decision making.
The rise of misinformation and
disinformation keeps us up at night. No
law or fancy new AI is going to solve the
problem. We all have to be a little more
vigilant, a little more thoughtful, a
little more careful when sharing
information—and every once in a while, we
need to call bullshit when we see it.
There's a lot in "Calling
Bullshit" that I need to remember when
arguing with people on the Internet.
The key point is to debunk their false
claims without resorting to personal
attacks. I try to do that, but
personal attacks are just about all that
some of the others can do, since they do not
seem to have any meaningful
counter-arguments. They seem to view
counter-arguments as personal attacks.
You're claiming you know more than they
do. They can't counter your arguments,
so they begin calling names.
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Comments for Sunday, June
19, 2022, thru Sat., June 25, 2022:
June 25,
2022 - This
afternoon, when I drove
past the gas station
nearest to where I live, I
saw the price of gas had
dropped another 11 cents
to $4.789 per
gallon. The last
price drop was just yesterday,
when it dropped 10
cents. I still have
more than a half tank of
gas, but I might fill it
up tomorrow. Or
maybe I'll wait to see if
it drops again. Time
will tell.
Meanwhile, Academia.edu
sent me two e-mails
containing free links to
two strange
documents. The first
link was to a
digital copy of a
319 page book
from 2013 titled "Unsolved
Problems in
Special and
General
Relativity."
The book's Preface
contains this:
All
papers included herein are produced
by scholars from People’s Republic
of China, except two papers written
by Prof. L. Sapogin, V. A.
Dzhanibekov, Yu. A. Ryabov from
Russia, and by Prof. Florentin
Smarandache from USA.
There are 21 scientific
papers in the book. Here are the
titles of the first seven:
1. Einstein’s Explanation
of Perihelion Motion of Mercury
2. Special Relativity
Arising from a Misunderstanding of
Experimental Results on the Constant Speed of Light
3. Problems with the
Special theory of Relativity
4. Criticism to Einstein’s
Physics Thinking in His Book “The Meaning
of Relativity”
5. Using Space-time
Quantization to Solve the Problems
Unsolved by General Relativity
6. New Exploration for the
Enigma of Paradox in Special Relativity
7. Unsolved Problems in
Special Relativity and Methods to Solve
Them
Here's the abstract for #2
on the above list:
Abstract: All
experiments show that the speed of light
relative to its source measured in vacuum
is constant. Einstein interpreted this
fact such that any ray of light moves in
the “stationary” system with a fixed
velocity c, whether the ray is emitted by
a stationary or by a moving body, and
established Special Relativity
accordingly. This paper reviews basic
hypotheses and viewpoints of space-time
relationship in Special Relativity;
analyzes derivation processes and the
mistakes in the Lorentz transformation and
Einstein’s original paper. The
transformation between two coordinate
systems moving uniformly relatively to
another is established. It is shown
that Special Relativity based upon the
Lorentz transformation is not correct,
and that the relative speed between two
objects can be faster than the speed of
light.
As near as I can tell, since
the paper is filled with math and very
difficult to decipher, he's saying that
light will hit an oncoming observer at c+v
which is "faster than the speed of
light." It's not, of course, the speed
of light is c, and the speed of the observer
is v. I've encountered many
mathematicians who seem unable to comprehend
that.
I wasn't able to decipher anything else
worth quoting from the papers.
The second link that Academia.edu sent me
was to a paper written by Prof. Lutz Kayser
from the Pacific Institute of Physics and
Space Technology. The paper from 2015 is
titled "Falsification
of Einstein Theories of Relativity."
The abstract begins with this:
The Einstein Postulates of
Special Relativity (SR), namely the
invariance of the speed of light c
relative to the observer, the
symmetry of relative velocities, and the
Galilean Principle independent of velocity
and gravitational potential are falsified.
The replacement Law is: There exists an
absolute universal velocity reference
(Cosmic Velocity Reference, CVR). The
velocity of light c is invariant
and isotropic only relative to absolute
universal space CVR. Experimental evidence
of the anisotropy of the cosmic microwave
radiation background CMB and the oneway
measurements of the speed of light are
given. From the new Laws it follows (in
vector notation) Crel = c
- Vcvr.
"Invariance of the speed of
light c relative to the observer?"
Einstein never wrote such a thing.
It's that same nonsensical "all observers"
theory that I've seen in many
textbooks. But Prof. Kayser is saying
it is wrong, and that Einstein was wrong
for proposing it. Here's another
quote from the paper:
Einstein’s light speed is
Crel and not constant relative to
source or sink as proven by many
experiments.
Sink? The paper uses
the word "sink" 43 times, evidently in place
of the word "observer" in the quote above,
although sometimes he seems to use it in
place of the word "source." In what
language does "sink" have the same meaning
as "observer"?
Here's another interesting quote from Prof.
Kayser's paper:
We scientists, who sat
in the first year physics lectures,
remember our astonishment and our
exclamations of disbelief when
Einstein’s Special Theory of Relativity
was introduced: Postulates of constancy
of velocity of light c relative to the
observer and the Galilean Principle
independent of velocity. It first
seemed easy to understand, but the weird
results of time dilation, length
contraction, velocity and acceleration
transformation, and the twin paradox were
hard to believe. Then followed the
explanation by the lecturer that all
these are counterintuitive and “this is
an example why physicists should not
follow intuition”!
He's saying he got his ideas
from "first year physics lectures" where he
was told that c is relative to the
OBSERVER. And when that made no sense
to him, he was told that Relativity made no
sense, but he should believe it
anyway. After all, he would FAIL the
course if he didn't accept what he was
taught. Since he's now a professor at
the Pacific Institute of
Physics and Space Technology,
he evidently passed all the tests and is now
arguing that Einstein was wrong instead of
the textbook and lecturer being wrong.
But what is he teaching?
I've seen similar arguments elsewhere,
arguments that Einstein was wrong in
claiming that the speed of light is c
relative to the observer. What
astounds me is that none of them ever seem
to check Einstein's paper to find out what
he actually wrote.
Here is what American mathematical physicist
Richard C. Tolman wrote in a scientific
paper he published in 1910:
The second postulate of
relativity is obtained by a combination of
the first postulate with a principle which
has long been familiar in the theory of
light. This principle states that the
velocity of light is unaffected by a
motion of the emitting source, in other
words, that the velocity with which
light travels past any observer is not
increased by a motion of the source of
light towards the observer. The
first postulate of relativity adds the
idea that a motion of the source of light
towards the observer is identical with a
motion of the observer towards the source.
The second postulate of relativity is seen
to be merely the combination of these two
principles, since it states that the
velocity of light in free space appears
the same to all observers regardless
both of the motion of the source of
light and of the observer.
I find it incomprehensible
that so many people misinterpret what
Einstein wrote, but a big part of it seems
to stem from being taught
nonsense. It's the nonsense I see in
physics textbooks that got me started on all
this.
June 24, 2022 - Ah!
The price of gas as the gas
station down the street from me
just dropped 10 cents to $4.899. So, it's
now down 30 cents from its
all-time high. I don't yet
need to fill my tank, so will it
go up from here or down?
Meanwhile, my state senator, Ron
Johnson, has been ridiculed on
various late-night TV talk shows
because of some aid he gave
Donald Trump in Trump's attempt
to overthrow the
government. Stephen
Colbert called Johnson "the
dumbest person in the
Senate." Personally, I
that that title belongs to Ted
Cruz. But it's nice to see
that I'm not the only person who
thinks Ron Johnson is not
someone to trust.
June 23, 2022
- I think the latest arguments I've
been involved with on the
sci.physics.relativity discussion
forum have finally come to an
end. I spent nearly all day for
4 days arguing about Relativity in two
separate discussions. On June 19
I tried to get it down to just one
discussion by starting a new thread
titled "Time
Dilation Experiments" where I
listed 12 experiments from my
web page about Time Dilation
experiments and I then simply
asked:
Is there anyone here who
seriously claims that Time Dilation has
NOT been fully verified by these
experiments?
As of this moment, five days
later, there are 113 comments in that
thread, 32 of which are my responses to
comments from others. The first
response was from "Paparios," who is
evidently a physics teacher in South America
who also claims to have written several
physics books. He responded:
What you have not
realized, for years now, is that "time
dilation" is a comparison between two
clocks A and B. For instance, in the Tokio
Skytree experiment (testing the
gravitational redshift) the comparison was
between a clock at the top of the 450 m
tower and a clock located at the base of
the tower. Hafele Keating compared the
elapsed time of flying atomic clocks with
the elapsed time of the ground not moving
atomic clock.
Therefore, your assertion
"time does run at different rates for an
object depending upon an object's speed
and its proximity to a gravitational mass"
is at the very least incomplete.
As you see, he didn't answer
my question. He just continued an
argument from some other thread.
The second response was from "Al Coe" who
wrote:
Every competent physicist
knows that, in terms of the essentially
unique stationary temporal foliation near
a large spherical massive body
(corresponding to the Schwarzschild time
coordinate), the rate of proper time
(dtau/dt) for an object along any given
path is different depending on the speed
and the elevation of the object. That's
what it means to say that clocks run at
different rates depending on speed and
elevation. No competent person disputes
this, so all your years of accumulating
lists of experimental evidence of this has
been pointless. Again: No. One. Disputes.
This.
As you see, he didn't really
answer my question, either. He
rephrased the question and answered his own
question.
The third response was from "Mitchell
Raemsch" who wrote:
Rate differences are too
small to measure...
Our gravity is low and so
is our motion.
Wait for space travel to
measure slow rate.
That appears to be a
claim that the experiments do NOT verify
Time Dilation.
The fourth response was from "The Starmaker"
who wrote (with two or three blank lines
between every sentence shown below):
Of course time dilation is
real, but what is never mentioned is
that Time Dilatiion runs
as different rates for different objects.
(not that
time runs at different
rates for an different objects)
It is that ..Time
Dilatiion runs as different rates for
different
objects.
Time Dilation
is...inconsistent.
To put it simply, sometime
it dilatates, sometimes it doesn't.
Does any of those on dat
list mentioned WHEN time dilatated????
In otherwords, do an
experiment...all of them using the same
object.
Will they all get the same
result?
They will discover that
sometime it dilatates,
sometimes it doesn't.
Time Dilation
is...inconsistent.
I would say that is a claim
that the experiments do NOT verify Time
Dilation.
I had started responding to some of the
comments by then, but there were still some
more responses to my original question.
The fifth response was from "Richard Hachel"
who simply said he did not agree.
The sixth response was from "Ross A.
Finlayson" who wrote:
I say instead it's space
contraction (alternate mechanism).
That appears to be another
disagreement.
And then others joined in, ignoring my
question and just arguing with the people
who has already responded, or with some
comment I made in a response. Once
again, most of the arguments were over word
definitions and proper wording. If I
didn't phrase things exactly
the way someone else would phrase them, that
person would argue that I was wrong.
Meanwhile, in the
other thread, I tried to get "Tom
Roberts" to comment on the 12 experiments,
since he claims to be a Quantum Mechanics
physicist, and he seems to disagree with
Time Dilation. But he just ignored my
post and stopped posting to that
thread.
And that's that. I'm no longer in
either of the discussions.
Meanwhile, I have gotten back to work on my
new book.
June 19, 2022 -
Yesterday, I spent all morning writing a
very long comment I was going to post
today. It was about the latest
argument I've been having on the
sci.physics.relativity discussion
forum. It started as an
argument with "Mitchell Raemsch" over
whether an atom "stores" light or just
absorbs and then re-emits it. I
cited three sources, including two
textbooks, which stated that an atom
just absorbs and then re-emits
light. Raemsch disagreed, and it
turned into an argument over the word
"store." Then "Tom Roberts" joined the
discussion by claiming what was in my
sources was just "lies." Among
his other arguments, he
wrote:
Elementary
books often LIE about advanced
topics, to avoid
long and
detailed discussions unrelated
to their topic.
and
It is just
basic quantum mechanics,
of which you appear to be
completely ignorant. It
is DIRECTLY relevant here and
shows how wrong your claims
are.
BINGO! I
responded:
Ah!
Quantum Mechanics! You should have
mentioned that you are a Quantum
Mechanics mathematician. That
answers everything! It explains why
you DISAGREE WITH TEXTBOOKS that
explain science and Relativity.
And
it seems to help explain why
textbooks disagree with each
other! Every author of a
college physics textbook interprets
things his own way. NONE of
them even attempt to explain
where Relativity and Quantum
Mechanics differ. If
you explain where Relativity and
Quantum Mechanics differ, you
encourage people to try to
resolve or explain the
disagreements.
College textbooks are supposed
to TEACH a subject, not create
debates over the subject. And
if you create a debate over whether
Quantum Mechanics is right or
Relativity is right, the answer
becomes quickly apparent: Relativity
is confirmed by facts and
experiments, Quantum Mechanics
is just about mathematics and has
little concern about facts and
experiments.
Every time I argue with a Quantum Mechanics
mathematician, the argument will somehow
turn to be about how in one "frame of
reference" Body-A will be stationary while
Body-B will be moving, but in another "frame
of reference" it will be Body-B who is
moving, and Body-A will be stationary.
So Time Dilation has no meaning if who is
moving is just a point of view. And
the same with light hitting an oncoming
object at c+v. If the oncoming object
is considered to be stationary, then c+v
becomes a speed greater than the speed of
light, which is impossible.
This morning I awoke realizing
something: In Einstein's 1905 paper
which introduced Special Relativity, he
wrote about two synchronized clocks where
one is moved in a circle and then returned
to be beside the other, and the clock that
moved will show less time has passed.
He then wrote:
Thence we conclude that a
balance-clock at the equator must go more
slowly, by a very small amount, than a
precisely similar clock situated at one of
the poles under otherwise identical
conditions.
Hmm. How could
a Quantum Mechanics mathematician switch
"frames of references" on that one?
How can Observer-A on the equator be viewed
as being "stationary" while Observer-B at
the North Pole moves around? Is that
why Einstein used that idea, to prevent
Quantum Mechanics mathematicians from simply
switching "frames of reference" to show that
either observer can be considered to be
stationary?
And I suddenly realized why
college physics textbooks disagree with
each other! Every author
of a college physics textbook
interprets things his own
way. NONE of them even attempt
to explain where Relativity and
Quantum Mechanics differ.
If you try to explain where
Relativity and Quantum
Mechanics differ, you
encourage people to try to
resolve or explain the
disagreements.
College textbooks are supposed
to TEACH a subject, not create
debates over the subject.
And if you create a debate over
whether Quantum Mechanics is
right or Relativity is right,
the answer becomes quickly
apparent: Relativity is
confirmed by facts and
experiments, Quantum Mechanics
is just about mathematics and
has no concern about facts and
experiments that disagree with
their mathematics.
It makes clear exactly what
Einstein meant when he stated:
As far as the
laws of mathematics refer to
reality, they are not certain;
and as far as they are
certain, they do not refer to
reality.
Einstein was trying to
understand the REALITY of what we see
happening around us. Quantum Mechanics
is only about mathematical models and
doesn't care whether those models represent
reality or not.
Over the years, I collected every Time
Dilation experiment I could find and put
them on a web page HERE.
I also collected every experiment which
demonstrates that light hits an approaching
observer at c+v and put them on a web page HERE.
I have NEVER found a Quantum Mechanics
mathematician who accepts the findings of
ANY of those experiments.
I think it's time for me to get back to work
on my new book. I just need to resist
starting one last argument on the
sci.physics.relativity forum.
I'd really like to find out how they will
argue against Einstein's thought experiment
about a clock on the equator and another at
one of the poles.
|
Comments for Sunday, June
12, 2022, thru Sat., June 18, 2022:
June
18, 2022 -
Hmm. The price of gas just
dropped another 20 cents at the gas
station down the street from me.
It's now $4.999.
I wonder what it will be when it's
time to fill up my tank again.
Most people seem to fill up their
tanks about once a week. I fill
mine about once a month, and that is
only because I fill up my tank when it
gets down to being half full. It
seems to run better when the tank is
full.
June 14, 2022
- I kept wanting to take a picture of
the sign at the gas station down the
street, to have a record of the
highest price I've ever seen for gas:
$5.299. But, I also
felt that if I took a picture of it,
then the price would probably go up
the next day and there would be a new
record high for me to take a picture
of. Then probably another and
another. So, I never got around
to taking that picture. And, of
course, yesterday the price DROPPED 10
cents to $5.199. So, does
that mean that I've missed my
chance to take a picture of the
highest gas price I've ever
seen, or is it just a matter of
waiting until the price goes up
again? I dunno.
Meanwhile, I'm bogged down on my
new book. I decided I
needed to add a new chapter
about General Relativity.
It would be inserted as a new
Chapter 12. When I started
researching General Relativity,
I realized that I also needed to
also dig through Einstein's
papers and books to see if he
mentioned in other places that Quantum
Mechanics does not represent
reality. His paper
titled "Can
Quantum-Mechanical
Description of Physical
Reality Be Considered
Complete' ?"
addresses that issue. So,
I'm digging through other papers
(and books) he wrote to see if
he also addresses that issue
elsewhere. It's tedious
work, but hopefully it will lead
to finding some excellent
quotes.
June 12, 2022 -
Here's what the Table of Contents for my new
book looks like as of this morning as I work
on Chapter 12:
Introduction
Page 1
Chapter 1
- What Einstein
Knew
Page 3
Chapter 2
- Stationary Points in
Space Page 6
Chapter
3
- What is
Light?
Page
11
Chapter 4
- c+v
and c-v
Page 20
Chapter 5
- Radar
Guns and
Relativity
Page 29
Chapter
6 -
Time
Dilation
Page 44
Chapter
7 - The
Twin
Paradox
Page 58
Chapter 8
- What is
Time?
Page 65
Chapter 9
- The Variable Speed of
Light Page 69
Chapter
10 - Inertial
Systems
Page 71 Chapter
11 - The Big
Bang
Page 76
Chapter
12 - Quantum
Mech. vs Relativity
Page 87
Chapter 13 - Wave Particle
Duality
Page
Chapter 14 - The Textbook
Problem
Page
Chapter 15 - The Physics
Problem
Page
Chapter 16
-
Page
About the
Author
Page
Chapter 12 is entirely
new. While I've known about "the
battle between Quantum Mechanics and
Relativity" for a long time, I've never
before really studied it. I knew that Albert
Einstein had some kind of role in creating
Quantum Mechanics, but it wasn't until 2
days ago that I found an article Einstein
wrote in 1916 titled "On
the Quantum Theory of Radiation."
It mentions that it was Max Planck who
started the Quantum Theory idea, which
according to Wikipedia
was around 1900.
Researching further, I also found an article
by Einstein and some others from May 1935
titled "Can
Quantum-Mechanical Description of
Physical Reality Be Considered Complete'
?" It's a very
interesting article. Here are the
first two sentences of the abstract:
In a complete theory there
is an element corresponding to each
element of reality. A sufficient
condition for the reality of a physical
quantity is the possibility of predicting
it with certainty, without disturbing the
system.
He's saying that scientific
theories are about reality.
And when dealing with reality, you should be
able to make predictions without altering
that reality. The article says that in
Quantum Mechanics you cannot do that.
The key issue seems to be "wave particle
duality." In Quantum Mechanics they
assume that light consists of waves, except
when it is clear that light consists of
particles. When they want to deal with
waves, they use one mathematical model, and
when they want to deal with particles, they
use a different mathematical model.
And they don't give a damn which
model represents reality.
Reality is evidently not an issue for
practitioners of Quantum Mechanics.
Their only issue is having a mathematical
model that works, which enables them to do
the math.
That's a issue I've mentioned before on this
web site. In my papers I think I may
have mentioned it without specifically
stating it was a Quantum Mechanics
methodology.
The more I learn about Quantum Mechanics,
the more it seems to be like some kind of religion
instead of a form of science. Its
practitioners are mostly True Believers, and
that appears to be why I've never been able
to change a single mind when arguing with
them.
The really scary aspect of
all this is that they seem to have gained
control of college physics textbooks. The
vast majority of college physics textbooks
twist and distort Relativity to make it
conform with Quantum Mechanics. I'll
deal with that issue when I get to Chapter
14. In my paper "An
Analysis of Einstein’s Second Postulate
to his Theory of Special Relativity"
I mention just 5 textbooks which distort
Einstein's Second Postulate to make it
conform to Quantum Mechanics beliefs.
Those 5 textbooks all distort Einstein's
Second Postulate in the same way, by
creating a version where light travels at c
for the emitter and for any
observer - which is totally wrong
according to Special Relativity.
(Chapter 4 in my book is about that
issue.) In Chapter 14 I plan to
mention all the correct, confusing and wrong
versions I've found in physics
textbooks.
In a survey I did last year, I found 10
"good" versions, 15 "helpful" versions, 23
"unhelpful" versions, and 24 "wrong"
versions of Einstein's Second
Postulate. Looking at them again, I
would now reclassify some of the "unhelpful"
versions to be "wrong" versions, I'd do the
same thing for a few of the "helpful"
versions, and I'd even do the same thing for
a few of the "good" versions. For
example, I classified the version below as a
"good" version of Einstein's Second
Postulate from page 34 of "Relativity
Simply Explained" by Martin Gardner,
published by Dover Publications
in1997:
2. Regardless of the
motion of its source, light always moves
through empty space with the same constant
speed.
I now see it is wrong
because it should say "light always
moves through empty space at c,"
which means 299,792,458 meters per
second. Due to time dilation, 299,792,458
meters per second
is faster when when the emitter is
"stationary" versus when the emitter is
moving very fast. So, light does NOT
"always moves through
empty space with the same constant
speed." It always moves at c.
Chapter
14 will almost certainly be the longest
chapter in the book.
|
Comments for Sunday, June
5, 2022, thru Sat., June 11, 2022:
June 8, 2022 - I'm back to
work on my new book once
again. Here's what the
Table of Contents looked like
back on March
24, when I was working on
Chapter 13:
Introduction
Page 1
Chapter 1
- What is
Time?
Page 4
Chapter 2
- Time
Dilation
Page 8
Chapter 3
- The Twin
Paradox
Page 20
Chapter 4
- Inertial
Systems
Page 27
Chapter 5
- What is
Light?
Page 32
Chapter 6
- The Variable Speed of
Light Page 41
Chapter
7 - The Big
Bang
Page 46
Chapter 8
- Radar Guns and
Relativity
Page 57
Chapter 9
- c+v and c-v
Page 75
Chapter 10 - Mathematics
versus Reality Page
84
Chapter 11 - The Textbook
Problem
Page 88
Chapter 12 - The Physics
Problem
Page 103
Chapter 13
-
Page 110
Here's
what the table of contents looks like
right now as I work on revising
Chapter 6:
Introduction
Page 1
Chapter 1
- What Einstein
Knew
Page 3
Chapter 2
- Stationary Points in
Space Page 6
Chapter
3
- What is
Light?
Page
11
Chapter
4 -
Time
Dilation
Page 20
Chapter
5 - The
Twin
Paradox
Page 34
Chapter 6
- What is
Time?
Page 41
Chapter 7
- The Variable Speed of
Light Page
Chapter
8 - The Big
Bang
Page
Chapter 9
- Radar Guns and
Relativity
Page
Chapter
10 - Quantum
Mech. vs Relativity
Page Chapter
11 - c+v and c-v
Page
Chapter 12 - Wave Particle
Duality
Page
Chapter 13 - Inertial
Systems
Page
Chapter 14 - The Textbook
Problem
Page
Chapter 15 - The Physics
Problem
Page
Chapter 16
-
Page
About the
Author
Page
As you can see, I added a
couple new chapters at the beginning of the
book, and I shifted some other chapters
around. The idea is to explain
Relativity step by step before I get into
the conflict with Quantum Mechanics.
That conflict is now seen as a one-way
conflict: Quantum Mechanics wants to absorb
and reconfigure Relativity, while Relativity
is content with basically just doing
experiments while ignoring Quantum
Mechanics. In the new Introduction, I
compare it to Russia attempting to take over
Ukraine right now, and Germany attempting to
take over the world about 80 years
ago. I'm not sure how the
Russia-Ukraine conflict will be viewed when
I finish the book, but the comparison to
Germany's attempt to take over the world
will still be valid. I might also
compare it to The Crusades, since it
sometimes seems that mathematics is a religion
for some people who view it as infallible
- and they view themselves as being
infallible when they argue their beliefs
about mathematical models.
June 6, 2022-B - Yikes!
When I drove to the gym this
afternoon, I saw that the price of gas
had jumped another 20 cents to $5.299
per gallon! I can't be sure
whether the price went up yesterday or
on Saturday, since I stayed at home
all day Sunday.
As I stated in my June 5 comment, the
last time I filled up was on May 26
when the price was $4.489 per
gallon. The time before
that, on May 1, the price was
$3.999
per gallon. The time
before that was on April 3 when
the price was $3.889,
and the time before that was on
March 5 when it was $3.699.
Fortunately, I probably won't have to
fill up again until early July.
I shudder to think what the price will
be then.
June 6, 2022-A - I think my
participation in the arguments on the
sci.physics.relativity discussion
forum have once again come to an
end. In my last post yesterday, I
asked a question and made a statement:
Which is more likely, that
we live in an infinite universe or that we
live in a finite universe? I'd say it is
vastly more likely that we live in an
INFINITE universe. And I find it just
plain CRAZY that Quantum Mechanics
mathematicians cannot cope with that.
The only response was from
"The Starmaker" who wrote:
"Which is more
likely..."???
You mean, which could be
true?
How about if i flip a
coin?
or play dice.
I'm certainly not going to
start an argument over the difference
between "Which is more likely?" and "Which
could be true?" Plus, it's a good
example of how conversations on that forum
constantly turn into arguments over words
and definitions. So, I'm simply going
to walk away.
Meanwhile, as I was taking a shower this
morning, a new idea suddenly popped into my
head. I've been pondering for days
about how I should rewrite the Introduction
to my new book, which I have tentatively
titled "Logical Relativity."
The current version mentions the "battle
between Relativity and Quantum Mechanics"
that has been going on for over 100 years.
But I suddenly took a look at that battle
from a different angle. I suddenly saw
similarities to the battle between
Ukraine and Russia.
Relativists seem perfectly content with
their view of the universe around us, and
they seem content to let Quantum Mechanics
mathematicians describe the workings of the
sub-atomic world. But the Quantum
Mechanics mathematicians want "A Theory
of Everything." So, they are on
a campaign to incorporate Relativity into
Quantum Mechanics. The problem is: Quantum
Mechanics has RULES that Relativity
doesn't obey. So, Quantum
Mechanics mathematicians are trying to change
Relativity so that it will obey
those rules.
You could also say that there is a lot of subversion
going on. Subversion is defined as
"the undermining of the power and authority
of an established system or
institution." That could be one way to
look at the FACT that most physics textbooks
have an incorrect version of
Einstein's Second Postulate, a version
designed to make it seem as
if Einstein's Relativity is somewhat
compatible with Quantum Mechanics.
Yes. I am definitely going to have to
try to rewrite the Introduction to my new
book so that it views the battle that
Quantum Mechanics is waging against
Relativity as a one-sided battle to dominate
world - or the universe.
June 5, 2022 - I'm
still arguing every day on the
sci.physics.relativity discussion forum.
It has been a very interesting discussion,
and up until this morning there haven't been
any serious temper tantrums or name
calling. Somehow, in the past 24 hours
the discussion turned to different religious
beliefs. Prior to last night, the
discussion is mostly about how radar guns
work. That is a subject I have studied
extensively, but my understanding based upon
EXPERIMENTS and FACTS seriously conflicts
with the BELIEFS of practitioners of Quantum
Mechanics. Here's a quote from
"tjrob137" who claims to be a working
physicist:
You display your personal
lack of understanding of basic physics,
and a complete failure to grasp what
science in general is doing. We are NOT
attempting to determine "what light
actually is", we are MODELING HOW IT
BEHAVES.
My response:
Quantum Mechanics
mathematicians may do that, but IN
SCIENCE, EXPERIMENTS are performed to
determine "what light actually is."
Mathematical models may be created to
describe some action, but when the model
fails, scientists go back to the drawing
board and try again to figure out exactly
what light actually is.
And I provided descriptions
of a bunch of experiments which have helped
scientists figure out "what light actually
is."
I'm supposed to be working on my book, but
when I try to work on it, all I do is sit
and stare at the Introduction and try to
figure out a better way to introduce the
book. I want to have more of a "hook"
to draw readers in. Right now the
Introduction is mostly about the conflict
between Relativity and Quantum
Mechanics. That could turn a lot of
people off. I'm thinking that the
introduction should describe the conflict
between Relativity and the warring factions
who are fighting with each other
over what Relativity really means. Or
something like that.
Meanwhile, I keep wanting to write a comment
about gas prices. When I last filled
up my gas tank, on May 26, the price was
$4.489 per gallon. Then on
May 31 it jumped up 21 cents to $4.699
per gallon. Then, the next day,
it jumped another 20 cents to $4.899
per gallon. And the next day
it jumped another 20 cents to $5.099
per gallon. I can see the price when I
drive away from my apartment. As of
yesterday it was still $5.099
per gallon. That is already above the
national average, so I certainly hope
it doesn't go any higher.
I'd also like to write a comment about
Trump supporters. It seems I'm
the only person in my family who does
NOT support Trump. In fact, I
cannot comprehend how anyone
could possibly support someone
like Trump. I cannot
ask my family members why they
support Trump without risking a
confrontation or seeming to attack
them in some way. I see such
people being asked that question on
the late night talk shows, but they never
explain why they support
Trump, they just identify themselves
as Trump supporters and smile when the
interviewer describes something stupid
that Trump just said or did.
And I see there was another mass
shooting last night, this time in
Philadelphia.
It is definitely
a crazy world we live in.
|
Comments for Wednesday,
June 1, 2022, thru Sat., June 4, 2022:
June 2,
2022 - At
around 10:15 AM this morning, I
finished reading Lee Smolin's book "Einstein's
Unfinished Revolution: The Search
for What Lies Beyond the Quantum"
on my Kindle.
When I say if "finished" reading it, what I
mean is that I reached the end of the book,
but I certainly didn't read every word of
it. After reading the first
third or so of the book, I began skimming
through pages, just checking to see how each
paragraph began and if it seemed to be about
a subject of interest to me. I had
decided that reading about all the unsolved
mysteries of Quantum Mechanics was of
absolutely NO interest to me.
Early in the book I read things that really
captured my attention. For example:
In these chapters I hope
to convince you that the conceptual
problems and raging disagreements that
have bedeviled quantum mechanics since its
inception are unsolved and unsolvable, for
the simple reason that the theory is
wrong. It is highly successful, but
incomplete.
and
Since the very
beginning of the quantum era, in the
1920s, there has been an alternative
version of quantum physics that does
make complete sense. This shadow
theory resolves the apparent paradoxes and
mysteries of the quantum domain. The
scandal—and I believe that term is
warranted—is that this alternative form of
quantum theory is rarely taught. It is
seldom mentioned, either in textbooks for
budding physicists or in popularizations
for laypeople.
But, while that "alternative
version of quantum mechanics" might make
complete sense to Lee Smolin, I gradually
realized I didn't want to read about any "alternative
version of quantum mechanics." I
simply wasn't interested. I'm
mainly interested in Relativity, and I
do not want to read page after page
and chapter after chapter about how
some "alternative
version of quantum mechanics"
relates to Relativity.
I started reading the book
because I hoped it would explain
why Relativity and Quantum
Mechanics are so totally
incompatible. The book did
that in the first chapter.
Relativity is about the world
around us, and Quantum Mechanics
is about how things work down at
the atomic and sub-atomic
levels. Relativity is
mostly about things we can see
and measure, while Quantum
mechanics is mostly about things
we can only approximate via
averages and percentages.
Relativity can cope with an
infinite universe, Quantum
Mechanics cannot, and those who
believe Quantum Mechanics can
describe the Universe must first
create a preposterous
universe where "space" only
exists between objects, and
objects can get farther and
farther apart without any
"space" for the objects to move
into.
I've got 21 pages of notes from
the book. Here is one of
the last ones:
Each of us
theorists has his or her
commitments: the guesses about
nature you are willing to bet
your career on. Personally, I
am a realist, a relationalist,
and, indeed, a temporal
relationalist. I believe that
quantum mechanics is
incomplete and aim to
construct a realist theory
according to the principles of
temporal relationalism, which
can stand as a simultaneous
completion of quantum
mechanics and general
relativity.
I started the
book thinking that Prof. Smolin
would just explain why
Relativity and Quantum Mechanics
are incompatible. I didn't
realize he was also going to
present his own theory of how
they can be made to work
together.
While I got a lot from the book,
I think all the parts I wanted
to read about could have been
stated in a single chapter or a
scientific paper.
June 1, 2022 - The
book I'm currently reading on my Kindle, Lee
Smolin's "Einstein's
Unfinished Revolution: The Search for
What Lies Beyond the Quantum,"
keeps mentioning "wave
particle duality." Wikipedia
says this about that subject (with my
highlighting):
Wave–particle duality is
the concept in quantum mechanics that
every particle or quantum entity may be
described as either a particle or a
wave. It expresses the inability
of the classical concepts "particle" or
"wave" to fully describe the behaviour
of quantum-scale objects. As Albert
Einstein wrote:[1]
It
seems as though we must use sometimes
the one theory and sometimes the other,
while at times we may use either. We are
faced with a new kind of difficulty. We
have two contradictory pictures of
reality; separately neither of them
fully explains the phenomena of light,
but together they do.
The solution is simple:
Examine what all the experiments
demonstrate. They demonstrate that light
consists of individual photons. And a
photon is not a particle in the classical
sense. It is not like a grain of sand
or speck of dust. Unlike a grain of
sand, a photon has no mass and is just pure
energy, which is in the form of oscillating
electric and magnetic fields. Those
oscillating fields give the photon its
wave-like properties.
What amazed me while reading Lee Smolin's
book is that when people discuss particles,
they talk about a single photon.
However, when they talk about waves, they
talk about clusters of
photons. And they seem unable to
distinguish the difference.
I got into an argument with someone about
that a long time ago. The waves we
argued about were radio waves.
Radio waves are man-made and
artificial. They consist of masses of
photons oscillating in some radio frequency
that are emitted in clusters of different
quantities and lengths, which a radio
receiver can interpret as different
amplitudes and sounds.
It seems simple and easy to understand, but
the argument I got was that "photons do not
oscillate." Period. End of
discussion. The apparent logic behind
that declaration is that a "particle" is clearly
defined as "an extremely small piece
of something such as dust, dirt, or sand."
Dust, dirt and sand do not
oscillate. Agreed. But a light
photon is not that kind of "particle."
And if that is the only valid
definition of a particle, then a photon
should be called a "photon," not a
"particle." Then, yesterday, I posted
a question to Google: "What is the Quantum
Mechanics definition of particle?" The
first answer was a link to an extremely
interesting article in Quanta Magazine
titled "What
is a particle?" The article
begins with these answers to the question:
The easy answer quickly shows
itself to be unsatisfying. Namely,
electrons, photons, quarks and other
“fundamental” particles supposedly lack
substructure or physical extent. “We
basically think of a particle as a pointlike
object,” said Mary Gaillard, a
particle theorist at the University of
California, Berkeley who predicted the
masses of two types of quarks in the 1970s.
And yet particles have distinct traits, such
as charge and mass. How can a dimensionless
point bear weight?
“We say they are
‘fundamental,’” said Xiao-Gang Wen, a
theoretical physicist at the Massachusetts
Institute of Technology. “But that’s just a
[way to say] to students, ‘Don’t ask! I
don’t know the answer. It’s fundamental;
don’t ask anymore.’”
Hmm. That fits well
with a standard answer that many physics
teachers are said to give to their students:
"Don't ask stupid questions, just do the
math!"
I had been pondering whether or not I should
address Quantum Mechanics issues early in my
book or save them until after I finish
discussing Relativity. The answer now
seems clear: Save them until I finish
discussing Relativity. Relativity is
simple and straight-forward. Quantum
Mechanics can be an incomprehensible mess.
I just wish physics teachers would teach
Relativity as one subject and Quantum
Mechanics as another and never
mix them together.
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