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Comments for Sunday,
Sept. 26, 2021, thru Thurs., Sept. 30,
2021:
September
27, 2021
- Whew! I just
hauled 8 more bags of books to
Goodwill. I wasn't sure if I should
transport them into my car before
going to the gym or afterward. I
ended up doing it afterward.
Counter-intuitively, exercising at the
gym seems to pump me full of energy,
maybe because it gets the heart to
pump faster for awhile. So, it
was no real problem to haul the 8 bags
- two at a time - from my 2nd floor
apartment down to the back door of the
building, then haul them from the back
door out to my car. And, when I
got to Goodwill, the only guy tending
the donations door was busy with
someone else, so I also took them from
my car and walked about 2 paces to put
them in a wheeled bin.
I really wonder what they think about
getting about a hundred books on
writing and screenwriting. I
also have to wonder how I ended up
with a hundred books on writing and
screenwriting. I guess I just
hoped that one of them would have the
"secret" that would allow me to sell
something.
Meanwhile, I actually worked on my
newest book a bit today. I
changed the title. The title was
"Logical Relativity." Now
it is more like the title of a science
fiction thriller. I don't want
to mention the title here just yet,
since someone might steal the
idea. I didn't get very far in
the book because I needed to find the
exact source for this Einstein quote:
Since the mathematicians
have invaded the theory of relativity, I
do not understand it myself anymore.
It is supposedly quoted in
the 1949 book Albert Einstein,
Philosopher-Scientist, by Paul A.
Schilpp. I have a pdf copy, and I just
need to find the page number and verify
it. Unfortunately, the pdf is not
"searchable," which means I have to go
through it page by page to see if I can find
the quote.
September 26, 2021
- Rachel Maddow talked about Dr.
Steven Hatfill on
her show the other day. Someone
sent me an email about it, and I located the
transcript of the show. I only
remembered Dr. Hatfill as someone who was
falsely accused of sending the anthrax
letters in 2001. When I checked page
141 of my own book about the mailings,
however, I found that, in addition to being
a virologist, Hatfill was also a Right
Winger. That is evidently how, in
February 2020, he became an advisor to the
Trump administration on how to handle the
Covid crisis. Here is part of the
transcript:
This is an email from Dr.
Stephen Hatfill to Peter Navarro dated May
of last year, so right before Memorial
Day. He writes, quote: I`ve been working
on tracking down some Israeli data
indicating that this coronavirus thing
may have now essentially run its
eight-week course in most of the United
States. Genetic bottlenecking of the
virus may be underway now.
Again,
that`s May 2020, Dr. Hatfill advising the
White House COVID response, even though
nobody knows that he is, telling his White
House supervisor, ah, this whole thing is
almost over looks like we`re about to be
done.
In
another email that same month, Dr. Hatfill
forwards Peter Navarro at the White House
headlines from a yet to be released study
on hydroxychloroquine, a study that had
not come out yet, a study Dr. Hatfill said
would prove once and for all that
hydroxychloroquine will greatly improve
survival for COVID patients.
Look
how he ends his e-mail, quote, if
Fauci and Steven Hahn, head of the FDA,
had done their jobs, 30,000 less people
would have died. They have blood on
their hands. What he means there is
30,000 Americans died because Dr. Fauci
and Dr. Hahn didn`t support the
widespread of hydroxychloroquine, which
is the solution to COVID crisis in
America.
That makes me wonder if
Right Wingers who refuse to get vaccinated
for Covid and who refuse to wear masks would
take hydroxychloroquine if
it was available. Fortunately,
we'll probably never know.
Meanwhile, I received a response to an
email I sent to the only
used-book store within 30 miles of
where I live. (I remember when
there was a used-book store just down
the street to the east of where I
live, and another to the north.)
I sent them an email about wanting to
sell over 500 books from my library,
including a set of 37 Time-Life books
about WWII. I included 3
pictures of books on my
bookshelves. Here's the
Time-Life pic:
Their response was:
I
have most of those books and a few
sets of the T-L WWII. So i think I
will pass.
Groan.
It appears that the supply of used
books far exceeds the demand.
So, I'm going to give most of my
collection to Goodwill, and I may give
some of it to my local public library
- the Time-Life WWII series being one
example. I also have an 8½ pound
copy of The
Official Military Atlas of the
Civil War that I'll give
to the library. And maybe my
copy of the 1922
Montgomery Ward catalogue.
And The
Times Atlas of China.
I've started putting books into
plastic bags to take to Goodwill,
maybe 10 or 12 books per bag. I
began with my books about writing,
particularly screenwriting. Then
I discovered that there were more
books behind some of
the books that you can see on the
shelves. Some of them were
screenplays in book form, including
the screenplay for the 1952 movie Macao,
a movie I've probably seen a dozen
times. Here are the back and front
covers:
I set that one aside. I'm not ready to
get rid of it just yet.
Yesterday afternoon, I took 6 bags of books
to Goodwill. I wonder what they'll
think when the open the bags and find that
nearly every book is about writing and
screenwriting.
A new question: I also have to remove
the pieces of paper I used as
bookmarks. One book had an IBM card as
a bookmark. Is that a "collectors
item?" And how about a book of coupons
from the Super-8 motel in Dubuque,
Iowa? There are no expiration dates on
the coupons. I think I stayed in that
motel in September of 1992 when I visited a
few riverboat casinos on the Mississippi.
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Comments for Sunday,
September 19, 2021, thru Sat., Sept. 25,
2021:
September 23,
2021
- I'm still getting a lot
of responses to the threads I
started on the
Science Fiction Facebook group.
The
thread I started about the TV
series "Lexx" now has 310
comments and 323 "likes" "loves"
and "hahas." Compare that
to the
thread I started about the
sci-fi novel "FastForward"
which has a total of 12 comments
and 12 "likes" and
"loves." I must
really have hit some kind of
pocket of interest with the
"Lexx" post.
But, at the same time, I've
somewhat lost interest in
posting there. Maybe it's
because I did the best ones I
could think of to start, and I
cannot think of any further
posts that seem worthwhile.
I keep thinking I should get
back to work on my book about "Logical
Relativity," which I am
thinking of re-titling to "Einstein
vs Mathematicians."
That new title seems to hit the
nail on the head.
Arguments with mathematicians is
a factor in just about every
science paper I've written, and
it really makes me want to work
on the book. I think that
new title would also create more
interest, and it gives me a
place to start.
But, at the same time I have
some personal matters that I
need to deal with. I need
to get rid of most of my library
of hardcover and paperback
books. They just take up too
much space, space that I need
for other things. So, I'm
going to try to sell about 500
books. I could just give
them to Goodwill, but first I
need to find out how much they
are worth. Plus, there are
no longer any used-book stores
in my town, so I've sent an
email to a store in Milwaukee to
see what they might
suggest. Things are a bit
more complicated because I live
in a second floor apartment,
with no elevator. I'm not
sure how much 500 books weigh,
but it has to be at least half a
ton. And then there is all
the decision making: Do I want
to include my 25 Charlie Brown
cartoon books in the sale?
And could some of my books be
"collectors items"? I see
I have a copy of "Screening
Space" by Vivian
Sobchack. I
underlined passages in the first
part of the book, and there's a
bookmark which indicates I
stopped reading it on page 88.
That looks like a book
they'd want to discuss on the Science
Fiction Facebook forum. Maybe
I'll start a thread about it. And
maybe I'll just sit down and start reading
it again.
Maybe I have a case of "writer's
block." I seem to be hunting for
things to do instead of sitting down
and writing a book.
September 20, 2021 - As I stated
in previous comments, I need to
promote my sci-fi novel Time
Work if I want people to
buy it. One way of doing that is to
mention it on the
Science Fiction Facebook group,
which has 70,910 members. But
before they'll let you promote your
own book on that forum, you first must
start either 25 or 50 threads about
other topics. (I can't find the
message which informed me of that, so
I'm not sure what the exact number
is.)
Anyway, yesterday I started a
thread about the Canadian TV series
from 1996 titled "Lexx," stating
that I thought it was the worst TV
series I ever paid good money to watch
on DVD. To my surprise, the
thread really took off, getting about
120 posts in the first three hours,
plus lots of "likes" and
"hahas." As of this moment, the
thread contains 253 comments and 258
"likes" and "hahas." (I think a
"haha" might be the opposite of a
"like," since there is no available
emoji for "dislike," and the "angry"
and "sad" emojis don't really imply
"dislike.") The comments are
mostly from people who either agree
with me or disagree. About 15%
are from people who never heard of the
series.
This morning I tried starting another
thread. I used this image:
I'm still waiting to see if it gets
approved. The post about Lexx
got approved in less than a
minute. It's been over an hour
since I tried the new one.
In a day or two I'll start another
thread about the sci-fi novel FlashForward,
which I
wrote about here on July 30.
I hope I only have to do 25. I
don't know if I can do 50. I
need to find that message which
informed me of the limit. But
I'm not sure how to do that, since it
was probably via Facebook in some way.
Sigh.
September 19, 2021
- The arguments on the
sci.physics.relativity forum
finally faded away. All it took
was for me to stop responding to their
attacks.
At the moment, I do not foresee any
further arguments on that forum.
I don't have any more science papers
in the works, and I'm not sure whether
or not I can gather enough will-power
together to convert my existing papers
into a book.
I had been thinking about writing a
paper where I convert Einstein's 1905
Special Relativity paper into plain
English, but it would definitely be a
lot of work, and I'm not sure it's
worth the effort. The same with
a paper about using a pulsar to as a
clock to measure time dilation.
I think that is a terrific idea, but
when I discussed it on the
sci.physics.relativity forum they just
endlessly argued about how you cannot
move at a right angle to a pulsar
because there can be no such right
angle, since the movement would
either be a tiny part of a circle
around the pulsar or a straight line
away from that circle. I did
write a
paper about it back in 2015, but
it's now buried under revisions that
turned into different papers.
So, if I'm not going to write a paper
or a book, what should I do next -
other than reading books and listening
to podcasts? I don't have any
other major mysteries to analyze and
solve.
I should probably try to promote my
sci-fi novel Time
Work. But I have to
do that without spending any money,
otherwise I'd probably spend more than
I'd earn in sales. I can mention
it on the
Science Fiction Facebook group,
but only after I start 25 (or is it
50?) discussion threads about other
topics. I think I've started
only a half dozen or so in the past 7
months. I've been too busy with
my science papers. But, a couple
days ago I did start a new thread
using this image:
A lot of people knew the
answer, and a lot of people
"liked" my post. I can probably
come up with a couple dozen more
"discussion starters" like that if I
put my mind to it. Then I'd be
able to discuss and promote my book.
I also need to get on Amazon and
change the description for Time
Work. For some forgotten
reason I just provided two sentences:
Time
travel may not let you change the
past, but it can be a handy tool if
you want to change the future.
Time
Work is a science-fiction novel
about a unique form of time travel.
The
book is about a lot more than
that. It's about a planned
right wing attack on Washington,
D.C. that three people have to
stop without letting anyone know how
they know so much about the planned
attack. The main character is
the President's brother, and the other
two are scientists who have built a
very unique kind of time
machine. The time machine
utilizes "anti-time" which
allows you to travel back in time one
second per second. In
other words, it takes you an hour of
your time to go back in time one
hour. And, of course, it is
impossible to change anything in the
past. You cannot even bend a
blade of grass. So, walking on
grass while in anti-time is like
walking on ice picks.
I wrote the book in 2014, so it
somewhat predicted the Right Wing
"insurrection" on January 6,
2021. When I self-published it
in February of this year, I only had
to add a few sentences to mention
Trump and the January 6 events.
It was those events that prompted me
to finally self-publish it.
I'd been wondering whether or
not yesterday's Right Wing "rally"
would be another conflict, but it
evidently turned out to be nothing,
just a small bunch of people standing
around. There were more police
than attendees, which is a good thing,
I suppose. It means there's no
need for me to revise Time Work
once again. So, I can focus on
other things .... but what?
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Comments for Sunday,
September 12, 2021, thru Sat., Sept. 18,
2021:
September
16, 2021
- The
arguments on the
sci.physics.relativity
forum
continue to
rage.
But mostly
they are now
about
Relativity
once again,
instead of the
Double-Slit
experiment.
One guy
continues to
try to argue
about the
Double-Slit
experiment,
but all he
does is recite
memorized
dogma, so I'm
just going to
ignore
him. The
Relativity
arguments,
however, are fascinating.
Mostly they
are about
whether or not
photons
oscillate.
They all
claim that photons
do NOT
oscillate.
My argument is
that they MUST
oscillate,
otherwise
radar guns
wouldn't work,
and I've
explained in
detail how
radar guns
work.
In one
argument where
the
oscillation
frequency was
the key point,
I cited a half
dozen on-line
sources which
discussed the
oscillation
frequency of
photons.
The
counter-argument
from "Odds
Bodkin" was
that on-line
sources are
worthless and
just contain
crap.
I then showed
him that the
on-line
sources I had
used belonged
to the
University of
California -
Davis, The
University of
Colorado in
Bolder, The
University of
Calgary,
Ontario, and
the Institute
of Physics,
which is "a
UK-based
learned
society and
professional
body that
works to
advance
physics
education,
research and
application.
It was founded
in 1874 and
has a
worldwide
membership of
over
20,000."
Odds Bodkin's
response began
with this:
And
again, I want to reiterate that just
because it is an academic
institution
hosting the website does NOT mean
that the content is written by
a professional physicist.
and
he continued with more reasons why
college web sites can contain what
"Odds Bodkin" believes is total crap.
In another argument with Michael
Moroney, I had stated:
Photons
MUST oscillate BECAUSE they cannot
have a "frequency" or a "wavelength"
if they do not oscillate.
To
which Moroney responded:
But
the received frequency depends on
the relative motion of the target
(Doppler effect). Also, photons move
at c, meaning their time
dilation is infinite, they don't
even experience time (zero time
experienced from source to target)
so they simply CAN'T oscillate!
Ah!
At last!! Instead of just
endlessly making claims, he finally
explained the reasoning behind his
claim. He believes photons
cannot oscillate because oscillation
involves time, and photons
do not experience time. I
quickly wrote this response:
Hmm.
That's an interesting belief.
Obviously it is not true, since
radar guns demonstrate that photons
DO oscillate.
The
belief seems to be that photons
cannot oscillate because time stops
when traveling at the speed of
light, therefore nothing can CHANGE
while traveling at the speed of
light. CHANGES INVOLVE TIME.
A
photon's fields oscillate up and
down while moving. They cannot
oscillate forward and back, since
going forward would mean going
faster than the speed of light.
Going up and down, however, has no
effect on the speed of the photon or
the speed of light.
A
photon travels at the speed of
light. It cannot travel slower or
faster. It experiences no "time" and
can travel forever. The up and down
motion of its fields have no effect
on its speed.
A
photon does NOT EXPERIENCE TIME,
therefore its oscillations DO NOT
INVOLVE TIME. All photons travel at
c regardless of their
oscillation rates. ONLY photons can
travel at c. Therefore, the
rules that apply to ordinary matter
do not apply to photons.
There
might be some better way to explain
it, but I'll have to see what the
arguments are first.
I
really enjoy arguing with these guys
when they try to explain their
beliefs. I can be extremely
tedious, however, when they just
recite their dogma claims.
September 15, 2021 - Hmm.
The arguments on the
sci.physics.relativity
forum are
still raging, even
though I've deleted
my paper The
Double-Slit
Experiment
Demystified
from both Academia.edu
and Vixra.org. But,
I think the only
reason the arguments
continue is because
I keep replying to
their
arguments. The
only way to stop the
discussion is for me
to drop out.
It certainly
won't end by one
side finally
agreeing with the
other side. If
I drop out, they'll
argue with one
another for a few
days and then move
on to argue in some
other thread.
I'm still kicking
myself for putting
that paper on-line
in the first
place. I guess
I just became so
sick and tired of
revising it that I
thought that putting
it on-line might end
the revising.
It did. At the
moment, I have
absolutely no
interest in revising
the paper to include
the key issue I
omitted: the fact
that the stripes on
the screen appear
even when photons
are sent through the
slits one at a time.
Meanwhile, as I was
doing some grocery
shopping this
afternoon, I
finished listening
to CD #9 in the 9 CD
audio book version
of "Wild
Bill: The True
Story of the
American
Frontier's First
Gunfighter,"
by Tom Clavin.
It was a fairly interesting
book. What probably struck me
the most was that the book isn't just
about Wild Bill Hickok, it's about dozens
of other personalities who lived
during that same time and who
encountered Wild Bill in one way or
another, from Buffalo Bill Cody to
Calamity Jane, from General Armstrong
Custer to Agnes Lake (no relation) who
ran a traveling circus. The book
really gives you the sense of what the
wild west was like and what people are
like when there is no law around to
keep them from simply killing one
another.
September 14, 2021 - Damn!!!!
I screwed up! I
shouldn't have put my latest
paper The Double-Slit
Experiment Demystified on-line.
This
morning I deleted it from
Academia.edu.
I'm not sure if I can
delete it from Vixra.org
or not. Or maybe I
should just leave it there
until I can replace it
with a paper maybe titled
Demystifying the
Double-Slit Experiment.
The original title says
the mystery has been
solved, the new title just
says there are ways
to solve the mystery.
I neglected to include in
the paper the experiments
where one photon at a time
was sent through the
experiment, and the
"interference pattern"
still appears on the
wall. I don't have
an answer for that.
All I have are
questions: What
happens to the energy of
the photons that do not
make it through the
slits? If that
energy is absorbed by the
experiment equipment, can
it still have an effect on
the experiment? Does
light go around the
divider between the slits,
or does the divider absorb
the photons that hit
it? I don't see
answers anywhere.
But, I've also lost the
energy I need to do
another overhaul of the
paper. I may get
some energy back by
arguing with people on the
sci.physics.relativity
forum. Time
will tell. The
arguments this morning
have been VERY
invigorating.
September 13, 2021 - There was an
email in my inbox this morning
advising me that, as of about 9 pm
last night, my newest science paper "The
Double-Slit Experiment Demystified"
is available for viewing on vixra.org.
When I checked it, I found that, as
usual, even though there were no
official reads for the paper so far,
that person who calls himself "Mikko"
had posted a lengthy comment about
it. His complaint is that I
don't explain anything!
As I see it, the
paper is 13 pages of
explanations about how
light works.
Anyway, as soon as I confirmed
that the paper was on vixra.org,
I also uploaded it to Academia.edu.
And I just started a
discussion thread about it on
the sci.physics.relativity
forum.
Meanwhile, yesterday afternoon I
finished reading a book titled "Plato
and a Platypus Walk into a
Bar ...: Understanding
Philosophy Through Jokes"
by Thomas Cathcart and Daniel
Klein.
It was a fairly short book, only 215
pages in paperback, but lots of those
pages just contain a single cartoon or
a single short paragraph. And I
have to admit that a lot of times I
just skimmed though the text to get
to the next joke. Some of
them are hilarious. Here are a
couple short ones:
From Page 87:
A
man wrote a letter to the IRS
saying, “I have been unable to sleep
knowing that I have cheated on my
income tax. I have understated my
taxable income and have enclosed a
check for $150. If I still can’t
sleep, I will send the rest.”
From
Page 177:
Pat:
Mike, I’m calling you from the
freeway on my new cell phone.
Mike:
Be careful, Pat. They just said on
the radio that there’s a nut driving
the wrong way on the freeway.
Pat:
One nut? Hell, there are hundreds of
them!
And
here's a relatively long one from Page
179:
The lookout on a battleship spies a
light ahead off the starboard bow.
The captain tells him to signal the
other vessel, “Advise you change
course twenty degrees immediately!”
The answer comes back, “Advise you
change course twenty degrees
immediately!”
The captain is furious. He signals,
“I am a captain. We are on a
collision course. Alter your course
twenty degrees now!”
The answer comes back, “I am a
seaman second class, and I strongly
urge you to alter your course twenty
degrees.”
Now the captain is beside himself
with rage. He signals, “I am a
battleship!”
The answer comes back, “I am a
lighthouse.”
There
are a lot more that I'd like to quote,
but I'll just end this comment with a
bit of philosophy from page 27 that
wasn't presented as a joke:
Without logic,
reason is useless. With it, you
can win arguments and alienate
multitudes.
September
12, 2021 -
My new science paper "The Double-Slit
Experiment Demystified" is ready for
uploading to the Internet. Later today
I'll submit it to vixra.org. It
should be on-line there sometime tomorrow
morning. Then I'll also put it on Academia.edu.
The date on the paper is September 13, 2021.
I've probably modified it forty or
fifty times in the past few days,
since every time I read it I find
something that can be improved
upon. And, each morning when I
awake, I also realize there is
something else that needs to be
corrected or improved upon.
I also came to realize the reason it
took me over 4 years to finish the
paper: It has nothing to do
with Special Relativity.
My main focus for the past 6
years has been on Special Relativity,
all as the result of a single
question: Why does it seem that no two
college physics textbooks contain the
same version of Einstein's Second
Postulate, and very few contain the correct
version?
Now my biggest concern is that the
fundamental idea behind my paper about
the Double-Slit experiment is rarely
mentioned in any college
physics textbook I can find.
That idea is that the slits polarize
the photons as they pass
through. However, in order to
visualize that process correctly, you
need to visualize light as photons,
not as waves. Very few
textbooks view the experiment that
way.
Picking a few textbooks at random, the
9th edition of College Physics
by Serway and Vuille has this on page
762:
The
first clear demonstration of the
wave nature of light was
provided in 1801 by Thomas Young
(1773–1829), who showed that under
appropriate conditions, light
exhibits interference behavior.
Light waves emitted by a
single source and traveling along
two different paths can arrive at
some point and combine and cancel
each other by destructive
interference.
And
on page 843 it has "A schematic
diagram of a polarized electromagnetic
wave propagating in the
x-direction" that looks similar to
this:
and on page 762 there is also this:
In
1905, Einstein published a paper
that formulated the theory of light
quanta (“particles”) and explained
the photoelectric effect. He reached
the conclusion that light was
composed of corpuscles, or
discontinuous quanta of energy.
These corpuscles or quanta are now
called photons to emphasize their
particle-like nature.
So in the final
analysis, is light a wave or a
particle? The answer is neither
and both: light has a
number of physical properties, some
associated with waves and others
with particles.
The
10th edition of Fundamentals of
Physics by Jearl Walker has this
on page 1054:
In
1801, Thomas Young experimentally
proved that light is a wave,
contrary to what most other
scientists then thought. He did so
by demonstrating that light
undergoes interference, as do water
waves, sound waves, and waves of all
other types.
And
this on page 986:
The
electromagnetic waves
emitted by a television station all
have the same polarization, but the
electromagnetic waves
emitted by any common source of
light (such as the Sun or a bulb)
are polarized randomly, or
unpolarized (the two terms mean the
same thing).
And
this on page 1154:
In 1905, Einstein proposed that
electromagnetic radiation (or simply
light) is quantized and exists in
elementary amounts (quanta) that we
now call photons. This
proposal should seem strange to you
because we have just spent several
chapters discussing the classical
idea that light is a sinusoidal wave
...
The concept
of a light quantum, or a photon,
turns out to be far more subtle
and mysterious than Einstein
imagined. Indeed, it is still
very poorly understood.
The 3rd
edition of College
Physics – A Strategic
Approach by Knight,
Jones and Field, has this
on page 540:
Such
a double-slit experiment was first
performed by Thomas Young in 1801,
using sunlight instead of a laser
beam. It provided the first
definitive evidence that light
is a wave.
and
this on page 821:
Unpolarized
light consists of waves
polarized in all possible
directions.
However,
it uses the term "photon" hundreds of
times and has this on page 915:
The idea that
light is quantized is now widely
understood and accepted.
But at the time of Einstein's
paper, it was a truly revolutionary
idea. Though we have used the
photon model before, it is
worthwhile to look at the
theoretical underpinnings in more
detail. In his 1905 paper, Einstein
framed three postulates about light
quanta and their interaction with
matter:
1.
Light of frequency f consists of
discrete quanta, each of energy E =
hf. Each photon
travels at the speed of light c.
2.
Light quanta are emitted or absorbed
on an all-or-nothing basis. A
substance can emit l or 2 or 3
quanta, but not 1.5. Similarly, an
electron in a metal cannot absorb
half a quantum but only an integer
number.
3.
A light quantum, when absorbed by a
metal, delivers its entire energy to
one electron.
Another
textbook, The Fascination of
Physics by Jacqueline D.
Spears & Dean Zollman
contains a quote on page 400 that
seems to explain everything. It
says,
While
controversy is a common occurrence,
physicists expect to be able to
design experiments that can
differentiate one model from another
- to decide whether light is a wave
or a particle. Conflicts are
resolved so that one model
replaces another. For the first
time, conflicting models could
not be resolved. When
physicists performed diffraction
and interference experiments,
light behaved like a wave. When
they performed experiments on the
photoelectric effect, light
behaved like a particle. What
was worse was that electrons behaved
in much the same way.
So,
the problem is mathematical
"models." No single
mathematical model can explain
both wave properties and particle
properties of light. Therefore,
mathematicians just live with
the problem instead of looking at
things logically.
Hmm. I just found that quote
yesterday afternoon. So, I had
to go back and modify my paper once
again to mention it.
When I mention my new paper on the
sci.physics.relativity forum
tomorrow, the people there will be
able to cite plenty of textbooks which
say I am wrong. But solid
facts and a few college
textbooks state that light consists of
photons, NOT waves.
As with Einstein's Second Postulate,
it is just more common to find an
incorrect version in a college
textbook than a correct version.
And as my paper shows, when you view
light as photons you get a totally
different view of Thomas Young's
Double-slit experiment that is
incredibly simple and explains things
which mathematicians inexplicably
claim are "unsolved mysteries."
|
Comments for Sunday,
September 5, 2021, thru Sat., Sept. 11,
2021:
September
9, 2021
- Yesterday afternoon, I
finished the first draft of my new
science paper titled "The
Double-Slit Experiment Demystified."
This morning I finished the second
draft. It's 13 pages long,
including one page of
references. I've been working on
it constantly for the past week.
The paper seems very
straight-forward to me.
Photons are polarized
when they go through the first
slit, and further polarized
when going through the double
slits. When the two beams
of polarized light are merged
after going through the
double-slits, they form "sheets"
of photons, separated by their
electric or magnetic
fields. And when those
"sheets" hit a screen or wall,
they will appear as
stripes.
The key seems to be that this also
creates a way to turn off
the stripes. All you have
to do is cause the light going
through the two slits to be
polarized in opposing
directions, one vertically and
the other horizontally.
Then the photons will not
create stripes when
merged. Instead they will
remain as disorganized as
ordinary light. This was
observed by Augustin-Jean
Fresnel and François Arago
shortly after Thomas Young
presented his papers in 1803 and
1807, but for some reason their
findings are rarely mentioned in
textbooks. Instead, the
"mystery" created by Thomas
Young is perpetuated.
I'm going to go through the
paper a few more times to see if
there are more improvements I
can make, and I plan to put it
on-line on both Vixra.org
and Academia.edu
on Monday, September 13.
Once it is on-line, I'll start a
discussion thread about it on the
sci.physics.relativity forum.
I have no doubt that they will
attack it and hurl insults at
me, but I want to see how
they attack it. What will their
arguments be? Many will
undoubtedly just proclaim that
it is "wrong" without explaining
where and how it is wrong, but
there might be some who will
present their claims
as to how it is
wrong. I just cannot
imagine what those claims might
be, since it all seems to simple
and straightforward that there
doesn't seem to be any cause for
argument.
But some people will find cause
for argument about anything and
everything.
September 6, 2021
- Hmm. Even though it is Labor Day, my
gym is open, so I headed there after
lunch. When I opened the door to my
apartment, I found some mail laying in front
of my door. Evidently the mailman had
placed it in the wrong mailbox and whoever owned that box
put it in front of my door.
I didn't look at the mail until I got back
home, and then I was surprised to see a "Notice
of Chapter 7 Bankruptcy Case" document
in one of the letters. The company
that had filed for bankruptcy in Cheyenne,
Wyoming, was Really Good Media LLC.
But they sometimes use another name:
Newsguy. And the address of the
company is in Windham, Maine.
So, that's the explanation for why my junk
email account is off-line. It had
nothing to do with the fact that the
remnants of Hurricane Ida passed over
Windham, Maine, at about the same time that
my email account went off-line.
That means I'm going to have to replace the
email address at the top of this web site
with another address. I just need to
decide if I want to use the email address I
use on my science papers, or if I should get
a new email address just for my junk
mail. That seems like a better idea.
A lot of the junk mail I was getting was
from newspapers that I dealt with when I was
working on the anthrax case. A lot
more was from stores who asked for my email
address for one reason or another.
When I start a new account it will be
starting from scratch on junk mail.
None of those places will know my new email
address. That's good, except for the
fact that some of the newspapers sometimes
sent interesting emails about news stories.
September 5, 2021
- I've been trying to work on a paper
titled "The Double-Slit Experiment
Demystified," but
I keep stumbling over new
mysteries. And I also keep
encountering mind-boggling questions
that people should have been able to
answer two hundred years ago.
Here's a basic illustration of the
experiment where light first goes
through one slit, then through two
slits, and then forms a striped
"interference pattern" on a screen or
wall:
Question:
How do we know
that a striped pattern
appears on the screen or
wall?
The obvious answer is: Because we
can see it. There
must be some way to look into the
experiment from some point on one side
in order to see the pattern on the
screen. But that should immediately
pose another question: If we can see
it, doesn't that mean that light
"waves" also travel from the screen to
our eyes, and those waves must have
gone through the waves
traveling from the double-slit barrier
to the screen? Why didn't the
waves traveling from the screen to my
eye interfere with the waves going
from the double slits to the screen?
The obvious answer is: Because light
consists of photons NOT
waves. There is no problem with
photons passing between each other
when going in different
directions. The best
illustration of that is the pinhole
lens or camera.
Things get even more mysterious and
confusing when my research indicated
that Thomas Young may never have
actually performed a "Double-Slit
Experiment." According to page
123 of Andrew Robinson's biography of
Thomas Young, "The
Last Man Who Knew Everything":
It
appears definitive—and there is no
question that the double-slit
experiment does demonstrate the
interference of light, as countless
others have subsequently shown. But
did Young actually perform it? Or
was it only a ‘thought’ experiment,
like Einstein’s notion of trying to
catch up with a light ray? At least
one current historian of science,
John Worrall, thinks the latter was
the case: Young’s double-slit
experiment was an intuition of the
truth, not a real experiment.Worrall
bases his view on the following
undoubted facts: Young does not
explicitly state that he did the
experiment; Young provides no
numerical data; Young says nothing
about the light source he used and
the other experimental conditions;
and Young never again refers to
the experiment.
Additionally,
the experiment that Young did
describe in detail with numerical data
is almost never mentioned by
physicists. It was a "pinhole"
experiment that Young described in the
paper he read before the Royal
Society on November 24, 1803.
It involved sunlight reflected off of
a mirror and directed toward a pinhole
in a screen behind which was a
darkened room. Below is an
illustration I created to show how
that experiment worked.
Thomas Young wrote:
"I
brought into the sunbeam a slip of
card, about one-thirtieth of an inch
in breadth, and observed its shadow,
either on the wall, or on other
cards held at different distances.
Besides the fringes of colours on
each side of the shadow, the shadow
itself was divided by similar
parallel fringes, of smaller
dimensions, differing in number,
according to the distance at which
the shadow was observed, but leaving
the middle of the shadow always
white."
This
experiment does most (or all) of what
the Double-Slit experiment does, only
there are no "slits" in this
experiment, there is just a beam of
light moving past and around
a thin card placed edgewise into light
coming from a pinhole. Plus, the
light is sunlight, not laser light of
a specific frequency, and the
experiment is performed in air, not in
a vacuum. Nevertheless, the
result is very similar to what is seen
in the Double-Slit experiment.
There are multiple bright lines on the
wall which indicate that light somehow
goes around the card as
visualized in the illustration below.
Since light consists of photons, not
waves, the photons that do not
actually hit the leading edge of the
card somehow move around
the card and enter what should be the
solid shadow of the card. And it
appears that the photons that pass
closest to the card change their
trajectory the most when those photons
pass the far end of the card.
The result is a series of white
stripes on the wall with dark stripes
in between. In other words, the
result is just like the Double-Slit
experiment but without any
slits. And when
Young blocked the light from going
around one side of the card (similar
to blocking light from one slit),
"all
the fringes which had before been
observed in the shadow on the wall
immediately disappeared,
although the light inflected on the
other side was allowed to retain its
course, and although this light must
have undergone any modification that
the proximity of the other edge of
the slip of card might have been
capable of occasioning."
Unfortunately,
Young evidently didn't produce any
illustrations to show what the
patterns on the wall looked like when
light could go around the card from
both sides, versus what the pattern
looked like when light going around
one side was blocked. But it is
clearly described as being similar, if
not identical, to the Double-Slit
experiment. And Young makes a
point that anyone can perform
this experiment.
Logically, the photons must somehow
interact with atoms in the card, not
with each other. There is no
"interference," there is just
"diffraction" like that created by a
prism. The closer the photon is
to the surface of the card, the
greater the degree of refraction
(which is defined
as "the change in direction of a wave
passing from one medium to another
caused by its change in speed").
What "medium" is there around the
card? At the moment, I'm not
willing to speculate.
What I've written above seems more
than enough to create a science paper,
even though it lacks
"conclusions." Why
do photons move around the far edge of
the card and into what should be a
solid shadow? Young explained it
was similar to water or sound waves
moving around an object, and he also
believed that light waves traveled
though an ether. He was
obviously wrong, and so are all the
mathematicians who argue that a light
"wave" must get divided by the card
and then interfere with itself when
the wave comes together again at the
far end of the card. Whatever
the right answer is, it would not be
believed by mathematicians who are
totally certain that "a
wave will interfere with
itself." And I am not absolutely
certain about what causes the photons
to change their direction of
travel. So, how can I
counter their arguments
when their arguments will
just be memorized dogma
and mathematical
equations?
|
Comments for Wednesday,
September 1, 2021, thru Sat., Sept. 4,
2021:
September 4, 2021
- Hmm. As of yesterday morning, the
web site that handles most of my junk mail
seems to have ceased to exist. It's
the email address that I show at the top of
this web site - detect at newsguy dot
com. According to a source HERE,
Newsguy is located in Windham, Maine.
That source shows a phone number. I
dialed that number and got a message that
the number has either been disconnected or
is out of service. I also tried to
send myself an email at that address and I
was informed that the address does not
exist.
I suppose it could have something to do with
hurricane Ida. A news report HERE
from a couple days ago indicates the remains
of Hurricane Ida were forecasted to go right
over Windham, Maine.
And I suppose there are worse things that
can happen than having the email account
that receives 99% of my junk mail go down.
September 1, 2021
- I've ended the latest round of
discussions and arguments I was having on the
sci.physics.relativity forum.
They were becoming totally
non-productive. But the main reason I
ended the discussion was because I had
located a paper I was working on in 2017 and
2018 that I never finished. Version #1
of the paper is dated July 5, 2017 and is
titled "The Double-Slit Experiment
Demystified." The latest
version, which appears to be version #7, is
dated December 17, 2018, and is titled "What
is a Photon?" I'd filed them and
the dozens of illustrations in a folder
titled "Wave-vs-Particle," which is what
caused it to be hard to locate.
The paper contains the results of lots of
research I had done, much of which I'll
probably have to do over again.
Looking the paper over, there are some
things in it that I now totally disagree
with. That may be why I abandoned the
paper. I was finding that too much of
what I thought to be correct was actually
wrong. So, I would stop working on the
Double-Slit paper and I would instead would
work on a different paper that explained the
specific scientific idea that I had learned
to be correct.
The more I study that paper from 2018, the
more it looks like I'm going to have to
start the whole thing over from
scratch. Groan!
That could mean that I'll end up dropping
the whole idea and just read a book or
listen to some podcasts instead.
|
Comments for Sunday,
August 29, 2021, thru Tuesday, Aug. 31,
2021:
August
30, 2021
- It's difficult for me to
imagine that anyone else would be
interested in the arguments I've been
having on the
sci.physics.relativity forum,
but to me they are very
interesting, and the only place I have
to write down my thoughts about them
are here.
Yesterday I realized something I
hadn't even thought about
before. And it helps put a lot
of pieces together. Why is
it next to impossible for me to
communicate with mathematicians
about how photons work? It
is because I visualize
a photon in my mind and how it
interacts with atoms, and all
they do is build mathematical
models - which may or may not
have anything to do with
reality.
I have absolutely no problem
visualizing an oscillating
photon coming straight at
me. Here is what it
basically looks like:
In the discussions on sci.physics.relativity,
I'm repeatedly told that photons do
NOT oscillate. But, if photons
do not oscillate, how can you can you
have red light and blue
light? Red light photons
oscillate about 460,000,000,000 times
per second and blue light photons
oscillate about 630,000,000,000 times
per second. I wonder how they
think we can tell the difference
between red and blue light. I
suspect they'll say it is the
"wavelength." But there are
no light waves. The "wavelength
of light" is just the oscillation
frequency per second converted to the
distance between one oscillation peak
and the next when light travels at
299,792,458 meters per second.
Sigh! When I turned on my
computer after coming home from the
gym this afternoon, I found TEN new
messages from "Odd Bodkin," each of
which would fill a typed page or
more. Fortunately, they are not
all addressed to me. He's
arguing with several other people,
too.
I really need to
find a way to get them to FOCUS on one
question at a time until an agreement
is reached or until it is totally
clear why reaching an agreement is
impossible.
August 29, 2021
- I've been sitting around listening
to podcasts and wondering what I should
write about on this web site or in science
papers or a book. The discussions I
started a couple weeks ago on
the sci.physics.relativity
forum had faded away. But, since
I check the forum every day to see if
anything has been posted, I also look over
the titles of the threads others have
started to see if any would be of any
interest to me. A couple days ago, the
title of one thread attracted my
attention. The title was:
In an Atomic clock? How
many Cs atoms are watched?
Curious as to what the
author, Mitchell Raemsch, was talking about,
I opened his message. It read:
and how could the changing
atomic be counted?
by what macro machine?
Mitchell Raemsch is
considered to be a "troll" by most others on
the forum. But it seems to me that
he's just someone who has a problem with the
English language. His messages are
always very short, and usually difficult to
decipher. It was clear this message
was about the way atomic clocks work.
I didn't fully understand how atomic clocks
work, either, so I responded by writing:
As I understand it, what
they do is shoot a photon at a Cesium
atom,
the Cesium atom
immediately gets rid of that energy by
emitting a
new photon, the atomic
clock collects that photon and sends
another
photon to Cesium atom,
which is again rejected.
The clock counts how many
times PER SECOND the Cesium atom
rejects the photons sent
to it. The answer is: 9,192,631,770.
A second is 1/86,400th of
an Earth day, and a Cesium atomic clock
ticks 9,192,631,770 times
during that period of time.
I quickly learned that my
understanding was incorrect.
Several different people posted messages
about how atomic clocks use lots of Cesium
atoms and some percentage of those atoms get
hit by photons. That reminded me of
what I'd previously read about atomic
clocks, but never fully understood.
So, I wrote a comment that summarized what
I'd read:
Okay, so they shoot
microwaves (a.k.a. "photons") at cesium
atoms.
The microwaves oscillate
AROUND 9,192,631,770 times per second.
The cesium atoms will
change their energy state IF they are hit
by
microwaves that oscillate
EXACTLY 9,192,631,770 times per second.
The clock then fine-tunes
the oscillation rate of the microwaves it
emits until it gets the
highest percentage of atoms to change
their energy states. When that happens,
the clock KNOWS it is emitting photons that oscillate
9,192,631,770 times per second. And as
long as it continues do that, it can
COUNT 9,192,631,770 TICKS per
second.
Then Mitchell Raemsch posted
another one of his very short
messages. First he quoted part of what
I'd written:
As I understand it, what
they do is shoot a photon at a Cesium
atom, the Cesium atom immediately gets rid
of that energy by emitting a
And then he posted his
message:
How do they see that Cs
atom?
Ah! Good
question. How do they target a
specific Cesium atom? They
don't. I previously thought they did,
but now I realized they didn't. They
shoot billions of photons at an unknown
number of of Cesium atoms, and then they
determine what percentage
of the Cesium atoms were hit. I responded:
They do not need to see or
target a specific atom. They shoot
microwave photons at a STREAM of
cesium atoms. They then measure the
percentage of atoms in that stream
that changed their energy states because
they were hit by the microwave
photons. The greater the percentage that
changed their energy states, the more
certain the clock is that it is emitting
photons that oscillate 9,192,631,770
times per second. Cesium atoms won't
change their energy state
UNLESS they are hit by photons that
oscillate 9,192,631,770 times per
second.
But Mitchell Raemsch
evidently didn't read past my first
sentence. He responded by quoting that
sentence and asking a new question:
"They do not need to see
or target a specific atom."
Then why would they need
to be used you moron?
I responded,
They don't target a
specific atom, they target a specific TYPE
of atom.
They target a TYPE of
atom that ONLY changes its energy state
IF it is hit by a photon
that oscillates 9,192,631,770 times per
second. That is what the cesium
atom does.
When you shoot a stream of
photons at a cloud of atoms, you are
bound to hit some of the
atoms. You just need to build a device
that
enables you to hit as many
atoms as possible.
The sentences I highlighted
in bold turned on a light bulb over my
head. Ah! An atomic clock does NOT
count "how many times PER
SECOND the Cesium atom rejects the photons
sent to it." An atomic clock
measures time by verifying that it can
emit photons that oscillate 9,192,631,770
times per second. Cesium
atoms won't change their
energy state UNLESS they
are hit by photons that
oscillate 9,192,631,770
times per second.
And if you
know you can
measure 9,192,631,770
oscillations per
second, then you can
also count seconds
and fractions of
seconds using that
rate.
I then had to go
through some of my
papers to see if I
had written anywhere
that atomic clocks
measure "how
many times PER
SECOND the
Cesium atom rejects the photons sent to
it." I
couldn't find
any.
I'd written a
lot about
radar guns
emitting
photons of in
a frequency
range
of about
35,000,000,000
oscillations
per second,
but I'd
learned that
there was
nothing exact
about
that
frequency.
It evidently
all depended
upon the
temperature of
the gun.
A warm gun
emits photons
that oscillate
at a higher
frequency than
a cold gun,
but even then
the frequency
was an
approximation.
The gun
compares the
frequency of
the photons it
emits to the
frequency of
the photons it
gets back, but
there is only
a tiny
fraction of a
second between
transmission
and reception,
so there is no
time for the
gun to change
temperature.
The rest of
the discussion
was
interesting,
too, but not
worth
repeating
here, until
someone named
"Townes Olson"
made a
statement that
others on that
forum have
previously
made, but
which I never
thoroughly
argued.
The statement
was:
photons do not oscillate
and
he added:
To understand photons, I suggest consulting an actual
text book on
quantum
electrodynamics.
Evidently,
Quantum
Mechanics
cannot cope
with a
particle that
oscillates.
Minutes later,
"Odds Bodkin"
jumped in to
repeat
something he's
stated many
times before:
Photons do not oscillate.
I
quoted a bunch
of on-line
sources which
state that
photons DO
oscillate, but
they simply
rejected those
sources as
"on-line"
sources, and
therefore not
reliable.
The only
reliable
sources would
be their
Quantum
Mechanics
textbooks.
The argument
is still going
on, but
arguing with
someone who
believes in
the
infallibility
of Quantum
Mechanics is
like arguing
with other
True
Believers.
There is
NOTHING that
will ever get
them to change
their minds.
This morning I
found they had
posted seven
new messages
from four
different
people, all
addressed to
me, and all on
the topic of
how Quantum
Mechanics is
in total
agreement with
Einstein's
Relativity -
once you
understand
what Einstein
actually meant
and not what
he actually
wrote.
I'll answer
most of them.
I know I can't
change their
minds, but
explaining
things in
different ways
helps me to
understand
things
better.
And, maybe
I'll learn
something new.
|
Comments for Sunday,
August 22, 2021, thru Saturday, Aug. 28,
2021:
August 25, 2021 - Groan!!!
Six years ago, when I first
began digging into the strange
things that people believe about
physics and time dilation, I
thought that I might be able to
help explain things. But
it's now clear that no one wants
to discuss anything, much less
have things explained to
them. They just want to
get everyone else to believe as
they believe by arguing against
whatever everyone else
says.
In the past 24 hours there were
three more messages posted to
the sci.physics.relativity
thread that I started about two
weeks ago on the subject of "Using
a Pulsar to Measure Time
Dilation." One
message was addressed to me,
even though I haven't posted anything
in the thread in 9 days.
In that message, tjrob137
first quoted part of what I
wrote to start the thread:
What this thought
experiment does is eliminate all arguments
that people on earth will see my clock
running slow while I will see the clocks
on earth as running slow. We both used the
SAME clock, and that clock ticked 10 times
faster for me than for people on the
"stationary" planets.
And then tjrob137 stated his
belief:
Use a distant pulsar at
rest in the same inertial frame as the
rocket ship, and you'll get the opposite
result.
In other words, if the
pulsar and my rocket ship are stationary,
and the earth and Planet-X orbiting around
Alpha Centauri are speeding through space at
over 99% of the speed of light, then time
dilation will apply to Earth and Planet-X
and not to me.
How can anyone think that way??
Rocket ships are built
to travel at high speeds, but how do you get
the Earth to travel at high speeds?
Answer: YOU CAN'T. But mathematicians
like tjrob137 evidently believe that, if I
can imagine a rocket ship moving at nearly
the speed of light away from the Earth, then
it's perfectly valid to also imagine the
Earth moving away from the rocket ship at
nearly the speed of light.
Mathematically, it can be computed either
way, and the logic of the situation is of no
concern. Only the math matters.
I didn't respond, of course. But "AA"
did. His 3-paragraph response to
tjrob137 is an argument against both of
us, and "AA" argues his own beliefs
about how the rocket would be moving toward
the pulsar (only 5.7 degrees off) instead of
at right angles to it, due to "relativistic
aberration." That evidently makes
perfect sense to "AA," but I don't think
anyone else has any idea what he is talking
about, even though he claims anyone with
"even a rudimentary grasp of special
relativity could tell you instantly" that he
is right.
The effect on me is that I've pretty much
given up. I no longer have much
interest in writing any papers on the
subject of Relativity, nor a book about
it. My papers are still getting reads,
particularly my papers about how radar guns
will measure the speed of an object relative
to the speed of light, but I don't know if
there is anything more I can say about that
subject.
So, what I'm doing instead is listening to
science podcasts and wondering if I could
find anything of interest if I put together
a file of 100 of the top physics textbooks
and just compared one textbook to
another. It seems like every textbook
author has his own way of explaining
things. And I don't think I've ever
seen a textbook that mentions the
Hafele-Keating time dilation experiments. If
they did, would the author argue that having
Hafele and Keating fly around the world is
mathematically the same as having Hafele and
Keating somehow remain motionless in space
while the earth spins under them?
After all, if you can mathematically compute
it one way, then you can mathematically
compute it in the opposite way, and who
gives a damn if one way is possible and the
other way is totally impossible?
August 23, 2021 - While eating lunch
yesterday afternoon, I finished
reading another library book on my
Kindle. The book was "On
The House" by John
Boehner.
It was a fairly interesting book, and not
what I expected. It's an
autobiography, of sorts, telling Boehner's
story about an Ohio kid who worked in his
father's bar and eventually became Speaker
of the House. But it's also about guy
who smokes, plays golf and poker, and likes
to socialize. Here's a quote from the
book:
At first I smoked Lucky
Strikes with no filter, but whatever brand
I started smoking they kept taking off the
market. Now I just hope Camel stays in
business—fingers crossed. I’m not blind to
the health risks, and I sure as hell don’t
encourage kids today to smoke. But I’ve
told my doctors that I’ve made it this far
in life by smoking, and the damage has
been done. They don’t stop trying to tell
me what I should do, and I don’t stop
ignoring them. And it works out fine.
The book also provided some
insights into how things work in congress,
including how some politicians try to scam
every penny they can to line their own
pockets. When Boehner was first
elected to Congress in 1991, there was a
House Bank where elected officials could
have a checking account. And it was
almost routine to write bad checks when you
had no money in the bank:
On April 1, 1992, they
published a list of the top 22
check-bouncers, and probably hoped that
would be the end of it. But we fought for
full disclosure, and finally, some two
weeks later, the list of all members who
had bounced checks at the House bank was
released. Hardly anybody was spared.
Speaker Foley was on the list, as was
number-two Democrat Gephardt. Nineteen
different committee chairmen had
overdrafts on their accounts. Democratic
representative Gerry Sikorski of Minnesota
was one of the worst check-bouncers,
having written nearly seven hundred bad
checks from his account. He tried to pawn
off the blame on his wife—a real classy
move. Plenty of House Republicans were on
the list too, including two rising stars:
Newt Gingrich of Georgia and Vin Weber of
Minnesota. Weber chose not to run for
reelection, but Newt stuck it out. The
hapless Buz Lukens, who had held my seat
in Ohio’s 8th District before resigning
over an improper relationship with a
minor, was sent back to jail—this time for
bribery—as a result of the House bank
investigation.
And if that wasn't weird
enough:
Then there were all the
problems with the House post office —
formally known as the Congressional Post
Office. Members would buy stamps and
charge them to their office account, and
then use them as currency in an
underground congressional black market.
Stamps were being traded for cash. Under
federal law, you can’t sell your stamps
back to the government, but some members
were getting away with it. One way the
stamps were “laundered,” so the rumors
went, was through late-night poker games
where they would play in stamps. Thousands
of dollars’ worth of USPS stamps were
apparently changing hands. And you
couldn’t just buy stamps at the House post
office—apparently you could buy cocaine
too. You couldn’t make this stuff up.
While Boehner is a
Republican, he doesn't have any problems
with being truthful about people like the
Senate's "reckless asshole" and "head
lunatic" Ted Cruz, or Donald Trump:
Trump incited that bloody
insurrection for nothing more than selfish
reasons, perpetuated by the bullshit he’d
been shoveling since he lost a fair
election the previous November. He claimed
voter fraud without any evidence, and
repeated those claims, taking advantage of
the trust placed in him by his supporters
and ultimately betraying that trust. It
was especially sad to see some members of
the House and Senate helping him
along—although some of the people involved
did not surprise me in the least. The
legislative terrorism that I’d witnessed
as Speaker had now encouraged actual
terrorism. And it pissed me off. I called
on Trump to resign, but I knew that
wouldn’t be enough. My Republican
Party—the party of smaller, fairer, more
accountable government and not conspiracy
theories—had to take back control from the
faction that had grown to include everyone
from garden-variety whack jobs to
insurrectionists. If the conservative
movement in the United States was going to
survive, there couldn’t be room for them.
Time will tell how successful that mission
will be, but I hope to be able to do my
part, even in retirement.
Boehner resigned from
Congress on October 31, 2015, which was before
Trump was elected. Playing golf seems
to have been his favorite pastime, and the
image he gives of himself is like that
of a successful corporate official who likes
red wine, good food, cigarettes and shooting
the bull with friends, and who keeps a
pickled pair of balls from a Cape Buffalo in
a jar on his conference table.
August 22, 2021 -
That discussion I started on the sci.physics.relativity
forum on August 12, about Using
a Pulsar to Measure Time Dilation,
still hasn't come to an end. There are
31 message after my final comment,
demonstrating that if they do not have me to
argue with, they will argue with each other.
I made a copy of the entire discussion to
save for posterity. I still find many
of their beliefs to be totally unbelievable.
I also thought a bit about restarting the
discussion on a new thread where I would
simply argue that, if the speed of light is
the maximum possible speed in the universe,
then doesn't that mean that all slower
speeds are some percentage of the maximum
speed? That means that, if one object
is moving relative to another, you can
determine which is traveling the fastest by
simply determining which is traveling at the
greater percentage of the speed of
light. How would you do that? By
firing radar guns at them. If the
radar guns have the ability to determine the
speed of a target when the radar gun is also
moving, then it can tell who is moving
faster relative to the speed of light.
And there are many different brands of radar
guns that have that ability.
As I thought about that, I browsed through
my collection of physics textbooks, and I
came across one that seemed to provide the
answers that I could expect from the people
on that discussion forum. The entire
132-page book is available to download or
read on-line. It's "An
Introduction to the Special Theory of
Relativity" by Robert Katz, and it
contains this on pages 24 and 25 of the
book:
§14 The Special Theory of
Relativity In order to explain the results
of the Michelson-Morley experiment, we
might propose that nature behaves in a way
we would not have anticipated, that the
Galilean transformation is incorrect, and
that velocities do not add vectorially (at
high speeds). Following Einstein, we
reason that there is no purpose in
postulating the existence of an ether if
there is no way to detect it; that is,
if no physical experiment can detect the
absolute motion of an inertial reference
frame. Thus
there is no purpose in speaking of a
velocity of light except with respect
to the observer who measures it. We
reason further that no one observer has
a special place, superior to all others.
The speed of light
should have the same numerical value
for all observers, so long as they are
all resident in inertial frames. We
propose, as a fundamental postulate of the
relativity theory, that physical law must
have the same meaning in all inertial
frames. This postulate is called the
postulate of covariance of physical law.
As a first step in the application of the
general principle, let us suppose that the
constancy of the speed of light is a
physical law; that is, the speed of
light is the same in every inertial
frame. Then the speed of light is
the same in every direction and does not
depend on the earth's speed through space
or its speed with respect to an
undetectable ether.
I highlighted some key parts
in bold and in red and bold.
The key sentence is
The speed of
light should have the same
numerical value for all
observers, so long as they are
all resident in inertial frames.
Of
course, many experiments show that
that is nonsense. I have a
web-page of experiments which
show that claim is wrong.
Additionally,
according to Einstein's Second
Postulate,
light is always
propagated in empty space with a
definite velocity c which
is independent of the state of
motion of the emitting
body.
That is totally
different than what that textbook
(and many many other textbooks)
says. According to Einstein,
the emitter
determines the speed of light, and
he said nothing about "inertial
frames." A speeding police
car is definitely NOT an "inertial
frame," yet a radar gun in the car
will emit light at c, and that
light will hit and oncoming car at
c+v. So will a radar
gun fired from a parked
vehicle, which would be an
"inertial frame." But I've
found only one
NASA web site which explains
things that way. All
other web sites and books I've
found pretend that radar guns emit
waves, instead of photons.
The illustration
above is an example. Supposedly,
waves are emitted by a radar gun and when
those waves hit an oncoming vehicle they
inexplicably bounce off the vehicle as if
the waves hit a solid wall. Do the
waves all bounce off the nearest part of the
car? Why? Wouldn't the waves
also bounce off the windshield and other
parts? And wouldn't that result in a
mixture of returned waves from different
parts of the car?
Additionally, the instruction manual for the
radar gun I own says that the gun has a
conical antenna and the "beam width" is 12
degrees. The illustration above
doesn't seem to involve any particular "beam
width." And how can the returning
waves from the target have a "beam width"?
Here's an illustration from one of the first
radar gun patents which shows the "waves"
somehow being kept to a "beam width."
 The outbound
beam is about 40 degrees wide, and the
return beam is about 10 degrees wide.
How? Why? The patent doesn't
explain. But, evidently it is just
easier to illustrate radar principles by
using fictitious waves
instead of real photons. In my papers
I use photons when describing how radar guns
work.
Hmm. Another thought: If radars send
out waves, how can weather radar systems
detect rain? A web site HERE
explains:
Weather radar consists of
a rotating dish protected by a large white
dome; this dish sends pulses of energy
(the radar beam) into the atmosphere to
detect objects like rain or hail.
If the radar beam encounters an object,
some of the radiation will bounce off of
it and return to the radar site.
The article says nothing
about waves bouncing off of rain
drops, which would be idiotic. Instead
it is about "pulses of energy (the radar
beam)" bouncing off of objects.
When you think in terms of photons, it is
easy to visualize photons hitting individual
rain drops. So, why make things more
complicated by using "beams" and "pulses of
energy"? The "beams" and
"pulses" consist of photons!
I have a bunch of books about radar
technology, and none of them ever use the
word "photon." Why? Evidently,
nearly everyone else thinks using photons
will make explanations more
complicated. Or could it be that there
are people who do not accept that a photon
can have oscillating electric and magnetic
fields? So, if you do not mention
photons, you do not have to argue with those
people.
What is the purpose of arguing about
Relativity if college textbooks say the
speed of light is the same for all
observers, even though radar guns and a
great many experiments prove
otherwise? And Einstein said
otherwise, yet mathematicians claim he
didn't mean what he said and wrote?
I got into this subject because I couldn't
understand why textbooks do not quote
Einstein correctly. I now think I
understand why they don't, but there's
nothing I can do about it if no one else in
the world who also understands the situation
is willing to talk about it - evidently out
of fear that arguing against what is in
college textbooks is a death sentence for
any career.
I find it's just amazing how simple things
are once you get past all the false
beliefs. But it seems false beliefs
are a tradition. And there is no
arguing against tradition.
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