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My Latest Comments
Comments for Sunday,
August 9, 2020, thru Saturday, Aug. 15,
2020:
August
14, 2020 - This
morning,
as I was looking through my web site logs, I
saw a real upward spike in the number of
visitors. Without a doubt, it is
entirely the result of the discussions I've
been having on the RDForum.
And when I checked that forum later this
morning, I found that several people had
comments about the discussions I've been
involved with. "Doubledge" posted
this:
Wow. This thread is really
something.
At this point I wish
someone would do the experiments with the
specific radar gun and post the video
results. I'm not sure there is much else
to otherwise discuss. It would be very
interesting after all this. Anyone.....??
And InDecay wrote:
I'd love to hear @Rob at
Radenso weigh in
Rob at Radenso then
responded:
Hard pass.
I assume that means he
doesn't want to get involved. Then
Wayne77 wrote:
We are all radar detector
enthusiasts here. We come here to discuss
those and learn as well. The people here
are more than willing to help someone out
and teach when they can. Surely you agree
that it's admirable that Py has gone out
of his way to try and explain numerous
times or for Vortex to go on a drive and
get you video footage that may help. It
appears this is getting nowhere, I guess
is what I'm getting at. Maybe this isn't
the right place for you to get your
answers.
To which I replied:
On the contrary,
this is an amazing place to
get answers. I wanted to know if the
Falcon HR works the same way as my TS-3,
and Vortex produced a video showing
that it does. Where else could that
have happened?
I came here looking to buy
a Stalker II SDR. There was an ad
on this forum for one, and my Google
search found it. It turned out that the
gun had been sold months ago, but the ad
hadn't been taken down.
Then I learned that there
may be another Stalker II SDR for sale,
and/or that one or more people may have
one and be willing to demonstrate how it
works. I need to know how it works
before I buy one. I need to know that it
works the way an executive at Applied
Concepts told me it works. They make the
Stalker II SDR, but it would cost me
$1,700 to buy one new, and I cannot afford
that.
If you know of some other
place where I am more likely to find
someone who owns a Stalker II SDR and who
is willing to demonstrate is and
sell it for a reasonable price, please
tell me where that place is. I've been
trying to find someone who will
demonstrate a Stalker II SDR for me for
about THREE YEARS.
Then I had more arguments
with PY004 which made no sense
whatsoever. In addition to hurling
insults, he's still arguing that I should
buy a Faraday Cage and put a radar gun
inside to to see how it works. Why
on earth would I want to do that??
I've done many experiments with my TS-3
radar gun, demonstrating that it can do
speed readings through all kinds of wire
screens. But PY004 rants that
those are not valid experiments.
According to him, only an experiment
with a Faraday Cage would be valid.
And he stated:
By not constructing a
proper faraday cage, all you have managed
to do is cause the metal screen to
re-radiate the photons.
Wha?That's
crazy! If all the
metal screen does is re-radiate the photons,
how come I get accurate readings when I
measure traffic speeds or the speed of
rotating fan blades through metal
screens?
I told PY004 that I wasn't going to respond
to any more of his posts, unless he posted
something "meaningful." His next post
said this:
I'll just record a video
of the SDR on Sunday for you and we'll
call it an end.
Wow!! If
he does what he says he'll do, that would be
terrific. I responded:
That would be meaningful.
But if you are right, all it really means
is that an executive at Applied Concepts lied
to me about how the Stalker II
SDR works. It changes nothing else.
The argument would then
shift to how ALL radar guns measure
"patrol speed." But I wouldn't argue that
here.
And that was the end of the
discussion. I'm anxious to see what
happens next. I fear all it will be is
some murky "demonstration" where nothing can
be seen clearly, but it will be angrily
claimed (with insults) that I have been
proved wrong.
August 12, 2020 (B) - This
morning someone new joined the discussion I
was having on the
RDForum. That person was
"Vortex," who was the person who created the
YouTube video I mentioned in yesterday's
comment. In that video, Vortex
demonstrated the Falcon HR radar gun, and in
my comment I wondered if it worked the same
way as the Stalker II SDR has been said to
work when moving.
Vortex found the question to be interesting,
and he evidently immediately went out and
created a
YouTube video showing how his Falcon
HR works while moving. It works the
same way that my TS-3 works. Here's
the video:
Unfortunately, it's fairly difficult to see
what the display reading is on the back of
the gun, but I took screenshots, converted
them to black and white, and then adjusted
the contrast to make things clearer.
Here's what the gun shows when it is moving
and pointed at the empty road ahead.
Note that the car's speedometer in the
bottom left corner shows 37 mph and the gun
shows 36 mph, which is close enough to state
that the gun is showing the "patrol speed"
or the speed that the gun is traveling.
Here's what the gun shows when it is moving
and is pointed at an oncoming truck.
Note that the speedometer shows 34 mph and
the radar gun shows 75 mph, which means that
the oncoming truck at which the gun is
pointed is traveling at 41 mph. The
gun adds together the target speed and the
"patrol speed," just as my TS-3 does.
While the video is disappointing in that it
doesn't show what I hoped it would show, the
discussion about it will hopefully encourage
someone with a Stalker II SDR to do the same
experiment. With or without a video, I
really really want to know what
happens.
It was an extremely interesting
book, but I sometimes wished I was reading
it on my Kindle instead of listening to the
audio book. Unfortunately, my library
only had the audio book version. So, I
had hunt around on-line to find sections of
the text that I could use in notes and for
quotes in this comment. Here's the
definition of "loonshot" from an unnumbered
page at the beginning of the book:
Loonshot: A
neglected project, widely dismissed, its
champion written off as unhinged.
Hmm. That could
include someone trying to resolve the 115
year old conflict between Quantum Mechanics
mathematicians and Relativists.
Here's another quote from page 2:
I’ve always appreciated
authors who explain their points simply,
right up front. So here’s the argument in
brief:
1. The most important
breakthroughs come from loonshots,
widely dismissed ideas whose champions are
often written off as crazy.
2. Large groups of people
are needed to translate those
breakthroughs into technologies that win
wars, products that save lives, or
strategies that change industries.
3. Applying the science of
phase transitions to the behavior
of teams, companies, or any group with a
mission provides practical rules for
nurturing loonshots faster and better.
The
book is about how good ideas are ignored
in companies and organizations where
politics is the road to success. But
if you have an environment where good
ideas are welcomed and promoted, then the
sky's the limit. That shouldn't be
anything new to anyone, but the book
describes example after example, from
medicines to movies, from air travel to
selling furniture. Some of the
details were absolutely fascinating to
me. Example: in September 1922, two
Navy engineers playing around with radios
discovered radar.
The
two engineers repeated the experiment
successfully several more times, and a
few days later, on September 27, they
sent a letter to their superiors
describing a new way to detect enemy
ships. A line of US ships carrying
receivers and transmitters could
immediately detect “the passage of an
enemy vessel … irrespective of fog,
darkness or smoke screen.”
This
was the earliest known proposal for the
use of radar in battle. One military
historian would later write that the
technology changed the face of warfare
“more than any single development since
the airplane.”
The
Navy ignored it.
It
took about 15 years for the idea to get
accepted. Military men just do not
like anything that looks new and requires
changing long-established procedures.
Radar was still in an experimental phase
when WWII broke out. But Britain's
crude radar system enabled them to stop
Germany from taking over England. If
you do not know where the enemy is coming
from, you have to spread your forces and
be on the alert everywhere. If you
know where the enemy is coming from, you
can focus your forces on where they are
needed.
Another quote from the book:
[Vannevar]
Bush’s new organization, eventually
called the Office of Scientific Research
and Development (OSRD), would create the
opportunity Bush sought for scientists,
engineers, and inventors at universities
and private labs to explore the bizarre.
It would be a national department of
loonshots, seeding and sheltering
promising but fragile ideas across the
country. The group would develop the
unproven technologies the military was
unwilling to fund. It would be led
by a damn professor.
The
military and its supporters, as
expected, objected. They told Bush his
new group “was an end run, a grab by
which a small company of scientists and
engineers, acting outside established
channels, got hold of the authority and
money for the program of developing new
weapons.”
Bush’s
answer: “That, in fact, is exactly what
it was.”
I
could go on and on, but it's been an
extremely busy morning and I need to
gather my thoughts for a (B) comment about
what's been happening. So, I'll just
conclude by saying I highly recommend "Loonshots."
August 11, 2020 -
When I looked at the latest posts to the
RDForum this morning, I saw that PY004
had written a long and convoluted response
to my last post. And he was just
asking the same questions and making the
same claims as if I hadn't tried to explain
things to him over and over a dozen
times. However, this morning he asked
one question that I hadn't fully addressed
before. So, I ignored all the other
gibberish in his post and simply responded
to that one question. His question was
long and convoluted, but it boiled down to
this:
What is "dogma" when I
say "light sometimes acts like a wave
and sometimes acts like a particle"?
My response was also very
long, but I think it might be worth
repeating on this web site. Here it is
in its entirety:
I've tried to explain, but
you just ask the same question again and
again. So, I'll try again. Here is the
dogma:
"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.” https://en.wikipedia.org/wiki/Wave–particle_duality
That dogma has only the
ability to describe an object as being either
a particle or a wave. It
is unable to fully describe the
object. It is dogma,
because QM mathematicians are satisfied
with that. It allows them to do all
the math they need. Ask them a question
and they’ll just recite dogma: “Light
sometimes acts like a particle and
sometimes acts like a wave.”
To a scientist (or any
normal human being) that is an unsatisfactory
explanation. A scientist doesn’t just want
to do the math, he wants to understand.
And to help him understand he needs to be
able to visualize a photon.
Experiments help with the visualization.
Experiments show that
light consists of individual packets
of energy. We call them “photons.”
We know this because we can emit laser
light at a photomultiplier and the light
will hit like individual particles.
Each particle will have the same amount of
energy. It makes the same sound when
hitting the photomultiplier. Lower the
intensity of the light, and fewer
photons hit the photomultiplier, but each
photon still hits with the same amount of
energy.
This also says the word
“particle” is clearly misleading and
inadequate. Historically, it means a solid
object, like golf ball or a bullet, only
smaller. There is no wave-like property in
a golf ball or a “particle.”
A photon, therefore, is
like a particle, in that it is “a packet
of energy.” But it is unlike
a particle because he has a
wave-like property.
Experiments show that wave-like
property exists in the form of
oscillating electric and magnetic
fields.
So, a photon is not
a wave. And it is not
solid like a particle. It is able to
travel at “the speed of light” because,
unlike "normal particles," it has
virtually no mass. A photon is just an
oscillating packet of energy. The
frequency of its oscillations determine
its energy.
And a photon is very
small. It can move though solid glass
almost as if the glass wasn’t there. It
can move through air and water. It moves
through these substances because those
substances contain no atoms or molecules
of the types that absorb typical photons.
When a radar gun emits a
burst of trillions of photons toward a
metal screen, most of those photons will
go straight through the holes in a screen.
A small percentage (determined by the size
of the wires relative to the size of the
holes) will hit the wires and be absorbed
and then re-emitted in random directions.
The photons that went though then hit a
target, and a tiny percentage are
re-emitted back through the screen and
back to the radar gun.
If the target is moving
toward the gun, the photons hit with
greater force (the kinetic energy
of the moving target). That extra energy
is added to the new photons that are
emitted by the target and sent back to the
gun. (Those photons oscillate faster.)
When the radar gun
receives the new photons, it compares the
oscillation frequency of the photons it
emitted to the oscillation frequency of
the photons it received back, and it
computes the difference (the “beat”
frequency) which is directly convertible
into the speed of the target.
In sum: Light does
NOT consist of waves NOR solid
particles, light consists of photons
with oscillating electric and magnetic
fields.
Waves as depicted in
textbooks and radar gun instruction
manuals are idiotic misrepresentations of
how radar guns work based upon the mindless
dogma taught in schools. Such
waves could not pass through a window
screen. But a radar gun can easily measure
target speeds through a window screen
because it emits photons, not waves nor
solid particles.
Understand?
I think that's probably the
clearest explanation of "dogma" that I've
ever come up with. It's also another
example of what I wrote yesterday about not
knowing what I think until I write it
down. I clearly think that reciting
dogma is a way of answering questions
without understanding anything. And
mathematicians do it all the time. They
don't care how light works.
They only understand the math. When
the situation calls for using particle
equations, then that is what they do.
When the situation calls for using wave
equations, that is what they do. And
anyone who finds that inadequate for
understanding how light actually works just
needs to go back to school and learn more
mathematics. When you know the
mathematics, you know all there is worth
knowing. And anyone who disagrees is
just plain stupid. Period.
August 10, 2020 -
Last week I saw writer/comedian Colin Jost
on TV talking about his new memoir "A
Very Punchable Face." When
I researched the book, I found it was
already a New York Times best seller.
So, since I think Jost is hilarious on Saturday Night Live,
I went to my library's web site and reserved
both the Kindle version and the audio book
version. I'll take whichever becomes
available first and cancel the other.
But neither will be available any time
soon. There's a six month wait
for both editions.
The reason I mention it is because I
listened to the 5-minute "sample" the
library provides, and that sample included
this quote which heads the Introduction:
“I don’t know what
I think until I write it down.”
—JOAN DIDION
That is one reason I love
writing. It helps me clarify my
thoughts. I can wonder about things
that might be wrong, but when I write them
down I see they are wrong - they are
illogical or make no sense. And I can
then often write out how they would
make sense if invalid parts are
eliminated.
The first paragraph in the Introduction to
Jost's memoir is:
I’ve wanted to write a
book my entire life. Partially because (as
you will soon learn) I have difficulty
taking what’s inside my head and saying it
out loud. For someone whose job is
essentially speaking, this creates a deep
anxiety and sometimes a paralysis that
keeps me from expressing what I’m really
thinking. Whereas the act of writing
allows my brain to function in a different
way. I can write and not be afraid of what
I’m going to say.
That also hits home.
The idea of talking in front of an audience
terrifies me, unless it's a situation where
I have to explain something. And I can
probably count on my fingers all the
instances where I've done that.
I started writing about science because I
needed to analyze things that I was reading
and hearing that made absolutely no
sense. I've been a science buff all my
life, but the Internet showed me that there
is a hundred-year-old conflict between what
mathematicians believe and what scientists
know to be true from experiments and
observations. I write to clarify
things for myself, not to change what others
are thinking. If a person
doesn't have fixed beliefs about a subject,
I hope my explanations will help him
understand. If a person has
fixed beliefs, I've found that, with rare
exceptions, you cannot change their
beliefs. The only way to change a
person's beliefs is to convert him to a new
belief, and I'm not out to convert
anyone. I'm just trying to figure
things out so that I understand them myself.
The argument on the
SDForum started up again this
morning. Last night, PY004 wrote a
long and convoluted response to my request
that he explain how waves from a radar gun
get through a window screen. PY004's
response explains nothing. Instead he
starts or restarts a half dozen other
arguments. I wrote a response, but it
is clear that I'm not going to change
PY004's mind about anything, and since he
has no facts, only memorized dogma, he's not
going to change my mind about
anything. I'd just walk away, but
explaining things is something I like doing,
and that is what I did. I explained
why PY004's answers and explanations make no
sense.
Ideally, what would happen next is that we'd
go through each disagreement point by point
to find exactly where we disagree and
why. If we could do that,
there's a strong possibility that the facts
and evidence would show who is wrong.
Dogma won't do it, but facts and evidence
can. But, we'll never discuss things
point by point. That would require
understanding a subject, and if all you have
is memorized dogma all you can do is recite
dogma and hurl insults at anyone who does
not accept that dogma.
1,500 Euros
is $1,768.33 in U.S. Currency. The
normal fine in Germany for speeding 7 miles
over the 44 mph limit is 20 Euros
($23.58). The extra amount was for being
rude to authorities. Hmm. I
think what I found most interesting about that
article was that it was being discussed on a
forum where breaking speed laws and getting
away with it is everyone's goal.
Meanwhile, as I was looking around for some
web site that might have information about the
Stalker II SDR, I came across a
YouTube video where the narrator tests 5
different radar guns. The narrator is in
a car that has two radar detectors
fixed to points just at the top of the
windshield. He has a V1
(Valentine One) in the upper left corner
and a RedLine
in the upper right corner. The YouTube
video:
It's now easier to understand why people always
assume I'm trying to beat a speeding ticket when
I ask them about the Stalker II SDR.
Beating and avoiding speeding tickets appears to
be a national pastime. The
guy in the video has about $700 worth of radar
detectors in his car, and over two thousand
dollars worth of radar guns. Moreover, a
little research shows that the video was created
by "Vortex
Radar," which appears to be a company that
reviews, evaluates and sells radar
detectors.
In a way, I can now also understand why these
people do not want to test a "stationary only"
radar gun while moving. They see it as
"wrong." It's against their rules for
breaking rules. Some may even fear that it
will harm the gun in some way.
The video includes a demonstration of the
Stalker II MDR, but since the gun
is used while stationary in the video, it
doesn't provide much new information. The
most interesting demonstration may be when he
shows how the Falcon HR radar gun
works. The Falcon HR is made by Kustom
Electronics, and it's another "stationary only"
gun. And, just like the Stalker II MDR and
SDR, it provides direction of movement
for targets. At the 3:15 minute mark the
narrator says it can be upgraded to "moving
mode." So, it could be
another gun that would demonstrate what I need
to demonstrate. When I did my survey of
radar gun manufacturers, Kustom Electronics told
me that they just sell to police and other law
enforcement agencies, they do not sell to
scientists or private citizens, so they wouldn't
answer my survey questions. It appears I can get a
"private session" to ask the guy in the video
if he has ever tried using the Falcon HR while
moving, but private sessions cost $90.
I'd pay 2 cents, but not $90.
The illustration above shows how
the MDR displays the direction of travel. The
arrows next to the Target speed show that the
target is approaching. If the target was
moving away, the arrow would point upward.
There are many examples of shifting arrows in
the video.
According to a radar gun web site HERE,
radar guns that provide the direction of travel
of the target or targets are fairly rare.
And such guns that are hand held are even more
rare. They pose an interesting
question: If the radar gun is moving, how
does it know the difference between a parked car
and an approaching car? I know how
because Einstein's Second Postulate explains
how, but how would people who believe radar guns
emit waves explain it?
There's a guy I've been talking with who has a
Stalker II SDR for sale. The price is
reasonable, and I'd really like to buy it, but
first I need to be absolutely certain
how it works while moving. I'm hoping the
seller will try it while moving and answer my
questions, but he might also be waiting for a
fee of some kind for doing that. He says
he just doesn't have the time right now.
So, I think I can shake up most of the
scientific community and do things they consider
to be "totally impossible, but first I need to
spend some money that I do not want to
spend. This is just a hobby for
me. I'm merely curious.
I'm ready to buy a Stalker II SDR, but I need to
confirm that, when moving, it will
work different from the TS-3 that I already
have. There could be some simple way to
find out without spending a lot of money, but,
if so, I don't know what it is.
Comments for Saturday,
August 1, 2020, thru Saturday, Aug. 8,
2020:
August 5,
2020 - There's still no further
word from member "PY004" on the
RDForum web site. On Sunday, August
2, I showed PY004 five different drawings of
waves from a radar gun hitting a target.
One such picture is below:
I asked PY004 (who is some kind of
"administrator" on the forum) how such waves
would get through a window screen or a wire
mesh, since it can be demonstrated that radar
guns can measure the speeds of targets through
window screens, and I've measured the speeds of
fan blades many times through the wire mesh that
covers the blades. I know how such
measurements are done with photons,
but how could a gun that emits waves
do it?
PY004 responded:
You're imagining the
wrong type of waves.
So, I asked,
If I'm "imagining the
wrong type of waves," would you please
tell me what kind of waves you
believe radar guns emit?
Then, about 3 hours later, PY004
responded:
Sorry I don't mean to
ignore you. There's an emergency in the upper
echelons of this forum and I'm completely
spent dealing with it.
I'll get back to this soon as
there is quite a bit here that's completely
wrong.
And I've been waiting since Sunday
afternoon. I don't really expect an answer
to my question. What other kind of wave
could there be? And if it's a wave unlike
what is shown in radar gun manuals, how would
PY004 justify disagreeing with those manuals?
When the mathematicians on the
sci.physics.relativity UseNet forum are
confronted with a question or problem that
challenges their beliefs, they usually start
hurling insults, but sometimes they will spout
memorized dogma that explains nothing, or they
just vanish. PY004 might simply vanish.
The RDForum
isn't a science forum. Its members are
evidently people who own radar detectors
and lidar jammers, and it appears their
primary interest is in how to break speed laws
and get away with it. They call it
"countermeasures." I browsed through their
discussion thread topics, and they have 4,300
separate discussion threads under the heading
"General Radar Detector Discussion," with 76,900
individual messages within those threads.
The only topic that seemed of interest to me was
"Off
Topic - Members Only." That is
because the most recent new thread is titled "SpaceTime
Explained . . . . Interesting Video For
Science Junkies." I'm tempted to
post a comment there, but I don't know where it
would lead. I'm supposed to be working on
my papers, not joining discussions or starting
arguments on new forums.
The problem is: When you work on a science paper
that requires a lot of explaining, you have to
figure out where to start the
explanations. What do you explain
first? When you pick a subject and start
writing, you soon realize there is something you
need to explain before you get to that
topic. So you start over with topic #2,
and before long you realize there is something
you need to explain before you get into topic
#2. So, you start over again. And
while this is going on, you cannot help but be
distracted by new things that are totally off
topic, but which will get you out of the
drudgery of writing a scientific paper.
Maybe I should read a book, or listen to
something on my MP3 player, .... or go for
a walk.
August 4, 2020 -
Once again I didn't feel like working on any
of my papers, so yesterday afternoon I sat
down on my couch and finished listening to
an audio book. I finished it at about
9:30 p.m. It was the 13 hour 46 minute
unabridged version of the novel "Phoenix
Rising" by Pip Ballantine and
Tee Morris.
It's the first in a series of 6 books about
the Ministry of Peculiar Occurrences, a
fictitious ultra-secret British government
investigative agency in the 1880s. I
think I decided to borrow it from my library
because it was described as being something
like the 1960s TV series "The
Avengers" which featured
beautiful Emma Peel and English gentleman
John Steed. The central characters in
this book are Chief Archivist Wellington
Thornhill Books, Esquire, and secret agent
Eliza D. Braun, both employees of the
Ministry of Peculiar Occurrences.
The story begins with Braun rescuing Books
from a dungeon where he was being held
prisoner while chained to a wall:
A lady emerged from the smoke and
debris—though her improper fashions
indicated she was unworthy of the title.
She was wearing pinstripe breeches tucked
neatly into boots that stopped just above
the knee. More disturbing than the fact
this “lady” was wearing trousers were the
sticks of dynamite strapped around her
thighs. The boots also had several sheaths
for throwing knives. The bodice she was
wearing was a black leather device, which
not only served to lift the petite woman’s
bosom up but also provided a secure
surface for the baldric she wore across
it. All this was accented with an
impressive, fur coat that flowed around
her like a cape.
The stillness she engendered in the moment
seemed odd to Wellington. Her gaze fixed
on him, and there was no relief in her
expression. She looked to be sizing him
up.
Her pistols finally lowered as she spoke.
Wellington’s ears had cleared enough that
her voice was discernable. “You Books?”
she asked, sheathing her weapons.
Wellington coughed and spluttered before
managing a choked, “Yes.”
“Jolly good then—I’d hate to have come all
this way for nothing.”
From there the story gets
into who captured Books and why. It
was a sinister secret organization of
dastardly villains called "The Phoenix
Society." Books and Braun have to get
to know each other first, and a lot of the
book is about them arguing over what to do
next. As Chief Archivist, Books was
mainly a "librarian" at The Ministry of
Peculiar Occurrences. But the library
also contains evidence from countless cases,
so its more like a warehouse. And the
cases involve all sorts of secret weapons
and tools, so there's a science fiction
element to the story.
Books and Braun infiltrate The Phoenix
Society and discover it is an organization
where the British gentlemen in the
organization are considered to be superior
beings with the absolute right to rule the
world and decide who lives and who
dies. And Books and Braun have to show
them the error of their ways.
I enjoyed the book, and I already have the
next book in the series in my MP3 player,
but I'm not sure if it's at the top of my
priority list. Since I've quenched
most of my curiosity about The Ministry of
Peculiar Occurrences, I may just quench my
curiosity about some other book I have in my
MP3 player instead of immediately getting
into the
next Books and Braun story. Time
will tell.
It's kind of an odd book because Jim Bell
joined the JPL group tracking the Voyager
missions years after the two space probes
were launched. So, it begins with a
lot of history, which is fairly
interesting. Then Bell joins the group
and the book becomes a personal story.
Then, the book turns to what is happening
right now and what could happen in the
future, which I found to be really
interesting.
Here's the first passage I highlighted:
It’s easy to think of
spacecraft like the Voyagers as being
alive, imparting to them feelings and
other human attributes. They are so far
away, and it is so cold and dark. They
must be lonely. Some of them, like the
Mars rovers Spirit and Opportunity, are so
cute with their long necks and bulging
eyes! They must be plucky, intrepid,
courageous, and a dozen other grand
adjectives of exploration, in order to
survive and thrive for so long. They are
out there, working tirelessly, making
discoveries and braving dangerous
environments with no rest, no vacation,
and no pay. We’ve got robots exploring the
solar system for us!
Another:
“Don’t anthropomorphize
the spacecraft,” Voyager imaging team
member Torrence Johnson recalls Project
Manager John Casani saying. “They don’t
like it.”
The two Voyager spacecraft,
Voyager-1 and Voyager-2, were launched in
September 1977. They used the latest
technology at that time, which means they
store information on tape recorders.
And they are both still working today.
They did fly-bys of Jupiter, Saturn, Uranus
and Neptune, plus many of the moons of those
planets, sending back pictures that amazed
the world.
Now they send messages from far beyond the
solar system, providing information about
radiation in interstellar space. It
takes about 20 hours for a message to get to
Earth from Voyager-2, and Voyager-1 is about
twice as far away. Voyager-2 is
heading upward, and Voyager-1 is heading
outward.
The book ends with some speculation about
how we will someday probably have a space
ship capture the Voyager spacecraft and put
them in a museum, because we are far more
likely to have the technology to do that
before the Voyagers ever get near any star
that is likely to have an inhabited planet
around it.
It was a very interesting and
thought-provoking book.
August 2, 2020 -
It appears that my discussions on the Radar
Detector & Countermeasure Forum
("RDForum)" have come to an end.
Generally speaking, it was a relatively
friendly discussion compared to most of the
discussions I had on the
sci.physics.relativity UseNet forum.
RDForum isn't a UseNet forum. It's a
web site forum that someone evidently set up
to discuss radar detectors.
It has a general discussion section, and in
another section you can also have private
one-on-one discussions with other members.
The
RDForum seems to have been created for
people who either want to beat
speeding tickets they've gotten, or
they want to know how to avoid getting
caught speeding. Mostly they
talk about radar detectors,
not radar guns. It seems the
only reason they might own radar guns
is to test detectors they also own.
I found the RDForum when I was searching the
Internet for used radar guns and came across
an ad for a Stalker II SDR radar gun with an
asking price of $650. The least
expensive gun I saw on EBay has a price of
$750. The ad led me to the RDForum
site where the radar gun was supposedly for
sale. I had to join the
forum in order to ask questions about
it. So, I did. It turned out
that the gun in the ad had been sold months
ago, but no one bothered to mention it on
the forum. However, a lot of people wanted
to welcome me to the forum and wanted to
know why I joined. When I told them
that I was looking for a Stalker II SDR for
a science experiment, most people were just
curious, but one guy with a screen name of
"odiddy" wrote:
I have an mdr (the moving
version). Pretty much the same. What
question you got ?
And I responded:
It's my understanding that
the MDR is totally different for my
purposes. The SDR is "stationary only." It
supposedly "doesn't work" when moving. I
need to know what readings it gives when
it IS moving. If the gun is in a car
traveling at 30 mph and is pointed at an
oncoming car traveling at 50 mph, what
does the gun show? If the gun is then
pointed at a highway sign, what does the
gun show?
My TS-3 will show 80 mph
if it is in a car going 30 and is pointed
at an oncoming car going 50.
The MDR is built to be
used in moving vehicles. It shows the
speed of the gun ("patrol speed") AND the
speed of the target.
The SDR only shows one
speed.
To which "odiddy" responded
(with my highlighting):
No. The MDR II has modes.
Moving and stationary. It can be toggled
via a button or the OBD cable does it
automatically. When in stationary mode,
I’m pretty sure it acts as if it is an
SDR.
When in stationary mode
and moving, I recall it calculates your
speed as the target speed when you point
it at a stationary object, a sign.
I haven’t tested the
second case, but would assume it acts
the same as your gun based on
relativity.
I again explained how I had
been told that the SDR worked, and that I
wanted one to experiment with. That
generated this response (with my
highlighting):
Just curious, Are you
a lawyer fighting a ticket for someone?
For that scenario, it
depends, if You are in moving mode, You
wouldn’t see the truck because it is
traveling the same relative to you. If a
car then blew by at 60, you would see that
based on 10mph differential.
If you are in stationary,
I would assume it could be 0 or 50.
0 if are close to the
truck as most of the deflections back will
make you look stationary relative to the
truck. Possibly 50, if you are further and
picking up more ground deflections.
I’m curious as to the
digging tho as it’s being used outside
the scope of what an SDR was designed
for.
I then posted a long
explanation of who I was, even providing a
link to all my science papers. That
prompted "InsipidMonkey" to join the
discussion. "InsipidMonkey"
started telling me how radar guns
work. An example:
Radar guns operate on the
principle of Doppler shift, in which the
frequency of the reflected signal changes
in proportion to relative velocity between
the source and target(s). Radar guns that
support moving mode have additional
processing to look for returns from the
ground (stationary) in addition to moving
targets, and are able to calculate the
difference in Doppler shift from multiple
returned signals to obtain the target
speed. Some also use phase to provide
directional information (i.e. target
approaching or receding).
Many radar guns (moving
and stationary) can be obtained
inexpensively on eBay. No need to limit
your search to a Stalker SDR/MDR.
I'd already explained to
others that I owned a TS-3 radar gun, and
that I'd done a survey of gun manufacturers,
and the only gun I knew of
that might meet my needs was the Stalker II
SDR. That's when the discussion began
to turn hostile, evidently because I was
challenging what "InsipidMonkey"
believed to be absolute fact. And I
started talking about how radar guns emit
photons, not waves. In
response,"PY004," who seems to be an
"administrator" on the forum, joined in and
asked,
Do you even know what
photons are?
And things went downhill
from there. "PY004" stated he had just
visited my web site and saw the comment I
wrote on July
28. He quoted from it and
stated,
That right there is enough
to show a severely flawed understanding of
the most basic fundamentals of radar
guns....
And the downhill trajectory
continued. "PY004" kept suggesting
things I should try, and I would respond
with pictures and facts showing him I had
already done such things. His basic
belief was that radar guns emit waves.
The facts say that radar
guns emit photons. I explained
that I could measure the speed of objects through
a screen, and I asked him
how waves get through a screen. The
response from "PY004" was a bunch of
personal attacks:
You don't accept claims
and opinions and results from experiments
if they don't conform to what you want.
You lack the most basic
understanding of all this. Your papers are
a joke.
My claim is that your
entire understanding of this is flawed.
You don't even understand doppler effect.
You dismiss all the experiments regarding
light.
You don't even know the
property of light (and everything) that in
referring to.
You remind me of a
conspiracy theorist but you don't qualify
for that since you don't think some
organization is trying to do this on
purpose....
I mean you're so far off
from reality here that no one can take you
seriously. And don't blame that on me.
That's 100% on you.
And then he bizarrely began
to argue that a radar gun would not be able
to emit photons if it was inside a Faraday
Cage! He suggested I
make or buy enough screen to totally enclose
the gun and they try it to see if it works.
That's the same kind of crap I got when I
was arguing with a scientist who didn't
believe the results of experiments he'd
performed. He claimed that the gun
wouldn't work if it was fired through a
screen made from copper.
But he refused to explain why it wouldn't
work or what would happen. Now it's a
Faraday Cage?! A
Faraday Cage is a protection against static
electricity. What does that have
to do with photons from a radar gun!?
If photons can't get through a Faraday
Cage, that would mean the gun would disappear
if you put it in such a cage. You
couldn't see it (or anything else inside
the cage) because no photons can get out
of the cage to allow you to see it.
I could go on and on, but I'll just jump to
the final confrontation. I showed them
a drawing of a radar gun emitting waves and
asked him how such waves can get through a
screen. Here's the drawing I used:
His response was:
You're imagining the wrong
type of waves.
So, I dug through the
Internet and found four other pictures of
radar guns emitting "waves." They were
all pretty much the same as the image above,
just with less writing. I showed them
to him and wrote,
If I'm "imagining the
wrong type of waves," would you please
tell me what kind of waves you believe
radar guns emit?
I researched radar guns,
and virtually every web site shows radar
gun waves virtually the same way. See the
images below.
I am simply interested in
how those waves (or your kind of waves)
get through a window screen. Could you
explain it?
And that was the last
message in the thread. I posted it
shortly before noon yesterday. No
response from anyone after
that.
While I was composing that message, I did a
Google search for "radar gun waves" to find
the images I showed him. There were
many more images, and I used only the best
of what I could find. What surprised
me, however, was when I did another search
for "radar gun 'photons'" and the top links
were to NASA's
site and to my papers. It
seems only NASA and I have ever
addressed how radar guns work with
photons. The others
postings I found with the search were just
about subjects related to radar guns and
photons in some other way.
The FDForum discussion was very
interesting. Some suggestions were
made for where I might be able to buy a
Stalker II SDR. Two suggestions were
for guns for sale on EBay, ads I hadn't seen
before, but both were for guns that were
"broken" because their batteries didn't
work. I didn't bother to check out how
the gun might work without batteries.
(My TS-3 uses a power cord.) There was
another suggestion that looked more
promising. But it will take a week or
two to check out. There's no
rush. The wave theory of light versus
photons is an argument that has been going
on for over a hundred years. Another
week or two won't change much.
August 1, 2020 - Groan!
On top of all the problems going on in the
world today, I'm still being pestered by
robots calling me and sending me
emails.
Back on October
29, 2018, I wrote a comment about
being pestered by a robot that wanted to
order a copy of my 2005 book "Analyzing
the Anthrax Attacks."
Here's what I wrote back then:
The email
required that I go through some steps to
verify that I am who they believe I
am. The fact that I received their
email wasn't enough. Nor was the
fact that they had my home phone
number. They wanted me to go
through an elaborate verification
procedure they had concocted. But
I couldn't follow the steps in their
procedure because the steps required
that I give them two
phone numbers. I only have one
phone number that I use, and that is my
home phone number. My cell phone
is just something I carry for
emergencies. I think it is what is
known as a "disposable phone" or a "burner
phone," even though I've had mine
for many years.
That robot is still sending
me messages almost two years later. It
goes through steps where it issues a
purchase order via an email, then it asks
why I haven't filled the order, then it says
it will cancel the order if I do not respond
in seven days, and then it notifies me that
it has cancelled the order, and then a few
months later it sends me a new order to
start the whole process over
again.
The only way I can them to stop it is by
becoming a "preferred" member of their
organization and paying about a $100 a
year. In exchange, they will let me
ship them a book to fill their purchase
order. If they sell the book, I'll get
maybe $5 as my part of the sale.
There is no phone number I could use to call
them. I suspect that they do not use
phones, because if they provided a phone
number, they would have to hire an
additional ten thousand employees to
answer the phones. One robot is all
they need if they do things the way they're
currently doing them.
Of course, I'm also being pestered by robots
calling me. I assume
everyone is getting such calls.
Yesterday I received a call informing me
that the Social Security Administration
has issued an arrest warrant for me.
I didn't answer the phone, I
just recorded the message. I have
received the same message several times in
the past few years. Who on earth
would believe a robot who tells them that an
arrest warrant has been issued for you, and
the robot doesn't even mention your
name!?
One of these days I'm going to figure out a
good way to put that message and a dozen
similar scam messages onto MP3 file, so that
others can listen to them. I've got at
least a dozen of them on my answering
machine. There is one such message at
the link HERE,
but it's not the one I've been getting.
Comments for Sunday, July
26, 2020, thru Friday, July 31, 2020:
July
31, 2020 - This afternoon,
while driving to the post office to mail
some letters, I finished listening to CD #5
in the 5-CD set for the unabridged 5-hour
48-minute audio book version of "The
Making of Donald Trump" by
Pulitzer Prize winning journalist David Cay
Johnston.
The book was published in 2016, the year
Trump was elected President, so it has
nothing about his presidency. It's
only about what kind of family he grew up
in, and all the lying, cheating, stealing
and conniving that made so many people want
to elect him President. Here's a
passage from the Epilogue:
In doing as he
chooses without regard to the rules that
restrict the behavior of others, Trump has
made himself a hero to some, a pariah to
others. Whether one adores Trump or is
aghast, his public conduct should prompt
us all to think about what qualities we
want in our political leaders and why
there is so much opportunity for someone
like Trump to garner tens of millions of
votes. We should ask ourselves why so
many Americans are excited at the
prospect of someone whose public
statements show utter disregard for the
checks and balances that buttress our
system of self-government — a system
that has made America, flaws and all, a
beacon to the world for more than two
centuries.
Many of the things Trump says
he would do if elected are not within
the limited powers we grant presidents.
Presidents cannot unilaterally spend
taxpayer money, cannot impose tariffs on
foreign goods, and cannot dictate to
corporations where they will invest. They
also cannot expect soldiers to follow
illegal orders, as Trump has said he would
demand, from the use of torture—prohibited
by our Constitution and the treaties that
are the law of the land—to the killing of
innocent civilians, notably the children
of terrorists he describes as Islamic
The book offered
no real surprises. It just gives a lot
of details about the endless line of
lawsuits that have been filed against him,
the kind of swindle his Trump University
was, the schemes he used to avoid paying
taxes, his racism, the women he encountered,
and the criminals he associated with.
The only scheme he was involved with that I
don't recall ever hearing about before was
this one:
In 1983, after
shopping at Bulgari, the high-end jewelry
store on Manhattan’s posh Fifth Avenue,
Donald Trump had a $50,000 necklace mailed
to him at an out-of-state address. On
another day, he bought jewelry that cost
$15,000. It, too, was mailed out of state,
sent to the Connecticut home of his mentor
and lawyer, the notorious Roy Cohn.
Both boxes were empty.
Mailing empty boxes is a way to
evade sales taxes on jewelry, furs, and
other expensive items easily shipped
through the mail. Under New York law, as
in most other states, a visitor who buys
goods and has them shipped to her home
state does not have to pay New York sales
tax. In theory, the buyers then owe an
equivalent tax to their home state, known
as a use tax, but that levy is only
lightly enforced. It was almost never
enforced in 1983.
It was a felony to
do that sort of thing, but Trump got away
with it. I assume that's another
reason he has so many admirers.
July 29, 2020 - Last night I
watched a movie that I'd recorded on my DVR
from the TCM (Turner Classic Movies)
channel. The movie was "Insignificance,"
from 1985. I couldn't recall ever
hearing of the movie before, and I knew
absolutely nothing about it, except that it
was supposed to be about Marilyn Monroe,
Albert Einstein, Joe DiMaggio and Senator
Joe McCarthy (played by Tony Curtis).
That was enough to make me curious.
So, a week or so ago, I set my DVR, and I
recorded it on Monday night.
The movie begins with Marilyn Monroe (played
by Theresa Russell) doing the dress blowing
scene from "The
Seven Year Itch." The
image below is from the actual movie with
the real Marilyn Monroe.
The scene in
"Insignificance" is seen mostly from
the point of view of the movie crewmen
under the grating using blowers to
lift her skirt. The rest of the
movie takes place over the next 12
hours or so, and Marilyn wears the
same dress throughout the movie.
It was definitely
an odd movie, but the reason I am mentioning
it here is because at about the 32 minute
mark, after leaving the movie set, Marilyn
Monroe pays an unannounced visit to Albert
Einstein, who is in a hotel room nearby for
some unexplained reason. Marilyn asks
Albert Einstein if she can explain
"specific" Relativity to him, so he can tell
her whether she understands it or
not. She calls it "Specific
Relativity" to separate it from "General
Relativity," which makes a certain amount of
sense.
Most of the explanation is totally
valid. She begins by explaining how,
if she was standing atop a train and threw a
book, the book would travel at the speed of
the train plus her throwing speed.
However, if she drops a book while inside
a moving train, the book will fall straight
down, just as it would if she dropped it in
Einstein's hotel room. And she
demonstrates that by dropping a book.
Then she begins to explain how the movement
of a light source (a flashlight) does not
change the speed of light that is emitted,
unlike what happens with objects, where the
speed of a train affects the speed of a ball
thrown ahead of or behind the train.
Then things get a bit off track.
Marilyn talks about how if she and Einstein
were one light second apart holding up
identical clocks, she would see his clock as
being 1 second behind her clock, and he
would see her clock as being one second
behind his clock, since it takes one second
for light from the clock to reach the
observer.
That's true, of course, but it's not part of
Special Relativity. It doesn't involve
time dilation, it just involves how long it
takes light to travel from point to
point. Light does not move
instantaneously.
I had to replay that entire section of the
movie a second time to make sure I didn't
miss anything.
The rest of the movie gets pretty grim as we
see Marilyn suffer medical problems and
fight with her husband, Joe DiMaggio (played
by Gary Busey). Joe McCarthy is in the
movie to accuse Einstein of being
un-American. And Einstein is suffering
guilt resulting from helping to build atom
bombs which killed children.
I haven't erased the movie from my
DVR. I don't know if I would ever want
to see it again, but until I decide it will
remain in my DVR.
Meanwhile, I'm still arguing with various
people on the Radar Guns
and Countermeasures forum I
found. It appears to be mainly for
people interested in ways to fight traffic
tickets and people who want to learn about
equipment to avoid getting speeding tickets
by using radar detectors. I'm learning
a lot by just asking questions, even though
the answers so far is stuff I already know.
July 28, 2020-
Ah! I made some progress on my
radar gun project! Since it looks
like I'll be getting another stimulus
check in August, I started checking to
see if I can buy a used Stalker II SDR
radar gun somewhere. I saw what
looked like an ad for a Stalker II SDR
at a better price than what I saw on
EBay, but I would have to join a
discussion forum to respond to the
ad. I was really interested in the
gun, even though it had evidently been
advertised on the forum since August of
2019. So, I joined the forum.
As soon as I did, several people
welcomed me and began asking questions
about why I joined the forum. When I told them I had
questions about the Stalker II SDR,
one of them said that he had a Stalker
II MDR which he said was
"basically the same thing," so he
could probably answer my questions.
So, I had to explain to him that the SDR
and MDR are different. If they
aren't different, why are there two
guns?
That caused me to research the
difference between the SDR and the
MDR. They look almost
identical. Outwardly, the only
difference seems to be that one says MDR
in very small white letters on a red
background on the side, and the other
says SDR.
The display screen on the
back is evidently identical on both models.
I dug through the operators manual for the
SDR but it showed no images of what it
displays when it is being used. It has
places for the TARGET speed and for the
PATROL speed. It seems to use
the patrol speed location for miscellaneous
information, like option numbers. But
that could be the same way the MDR also
works.
Then I decided I needed to look at the
operators manual for the MDR. I
quickly found a copy, and it showed me how
the target speed and patrol speeds are
displayed. Below you see a target
speed of 60 mph and a patrol speed of 55 mph
being displayed.
Then I suddenly realized what the SDR almost
certainly does when it is moving. Why
hadn't I realized it before?!
The SDR does not show any "patrol"
speed. It only shows "target"
speed. Therefore, when the gun is in a
moving vehicle traveling at 55 mph and is
pointed at an oncoming car traveling at 60
mph, the SDR version will only
display a target speed of 60 mph. No
patrol speed. When the gun is in a car
going 55 mph and is pointed at a highway
sign or at the road ahead, the gun will show
NO "target speed." And, of course, it
shows no "patrol speed" either.
That means that if the SDR gun is in a car
going 60 mph, following behind a semi-truck
going 60 mph, the gun will show a target
speed of "60 mph." And if the gun is
then moved to point to a highway sign, the
gun will show NO speeds. That says
that if the gun is INSIDE that same
semi-truck and is pointed at the front wall
of the truck, it will show a target speed of
60 mph just as it did when the gun was in a
car behind the truck. That is what the
mathematicians say is "totally impossible."
I was 99% certain that the Stalker II SDR
would work that way. Now I am 99.5%
certain. I'm certain enough to buy a
used SDR if I can find one for a good
price. But, I'd still like to have
someone on that forum confirm it.
July 26, 2020 - On
Friday afternoon, I took tour of Mars - a
"virtual" tour. It wasn't a planned
tour, but it wasn't accidental,
either. I was simply looking for
something on YouTube
and they showed me a list of videos that are
"4K" tours of Mars as seen by the Mars
Rovers Spirit, Curiosity and
Opportunity. I gathered that "4K"
means very high quality. So, being
even more curious than "Curiosity," I
watched the
first video on the list.
It's a very interesting video with very
clear views of numerous different locations
on Mars. At each location, the camera
slowly pans across the landscape, so, if you
are watching it on a large screen, it looks
almost as if you are there. The image
below is a screen capture I took of one
location. (You can probably right
click on the image to see the full size
version.)
I was also somewhat surprised to see that
there is more than just one such
video. I found at least four of them.
There is even one
that is over 10 hours long.
Fortunately, you can skip through it and
just look for interesting things that
weren't on the shorter videos.
After taking that tour, I returned to the
task I was supposed to be doing, which was
to look for videos that might help me
explain what I want to put in one of the new
science papers I'm trying to write.
The paper is tentatively titled either "The
Fundamental Question" or "The
Fundamental Problem." If
it's a question, the question is "Is it a
Natural LAW that nothing can go faster than
light?" If it's a problem, the problem
is "Since there is nothing stationary in the
known universe, what is the speed of light
measured against?"
While searching for videos related to
measuring the speed of light, I found a
video provocatively titled "The
Mystery at the Bottom of Physics."
It's an excellent video. At
the 1:30 mark, the narrator says, "If you
are traveling at 1 meter per second, light
is traveling this fast away from you:
299,792,458 m/s. If you are traveling
a 298 million meters per second, then light
is still traveling this fast away from you:
299,792,458 m/s. If the speed of light
doesn't change, then everything around it
must change, such as time and distance."
Unfortunately, the
video doesn't really explain much more
than that. Here's
the video:
While watching that video and some others, I
saw some YouTube ads for "Sci Fi Short
Films." Being a big sci-fi fan, I
viewed one of them. It was called "FTL" (Faster than
Light), and it's just over 14 minutes
long. It was surprisingly well
done. It's about an astronaut who is
performing an experiment where his space
ship is supposed to go faster than
light. And he does, and, as a result,
he disappears from this universe.
You'll have to watch the video to see how he
gets out of that situation.
That video caused me to look for other "Sci
Fi short films," and I found dozens
and dozens of them. I
watched seven of them last night on
my big screen TV. They were all very
well done, with unexpectedly good special
effects, but the stories varied from very
good to just so so. I watched one
short film that wasn't really a sci fi
movie. It was a western titled "The
Gunfighter." It's only 8
minutes, 49 seconds long, but the idea
behind it is hilarious. It's narrated
by someone, andthe characters in the
movie can hear the narration.
So, most of the movie consists of arguments
between the characters and the narrator, as
the characters repeatedly complain, "No,
that was not what I was thinking!"
What the "short films" told me was that
there are a lot of
interesting videos out there that I never
knew existed. It's almost like the
fact that there are evidently a lot of TV
shows out there that I do not know
exist. Some are on networks
I do not know exist. I learn about
them when a star from the movie appears on The Late Show with Stephen
Colbert to plug the movie. Or on
Trevor
Noah's show, or on Jimmy
Fallon's show.
On the other hand, it often seems that when
I want there to be a lot of things
on YouTube that I haven't yet seen, I cannot
find anything new. I want
to see a video of a Stalker II SDR radar gun
in action. I cannot find any such
video, no matter how hard I look. When
I did another search yesterday afternoon,
however, I did find a
video of how a radar gun is assembled.
I kept looking for something in it that
might be meaningful, but I found nothing.
Sometimes it seems like the
universe is trying to
prevent me from verifying how a "Type-1"
radar gun works. Not only am I
supposed to keep away from people for the
next six months or more to avoid being
infected with Covid-19, the various
activities to "defund the police" make it
even more difficult to get someone in some
police department to talk to me about how
their Stalker II SDR radar gun works, or if
they have any other "Type-1" radar
guns.
I would really really like to
be absolutely, positively 100% certain
of how the Stalker II SDR radar gun works
before I spend a lot of money from my next
"stimulus" check to buy one. Sigh.
Comments for Sunday, July
19, 2020, thru Saturday, July 25, 2020:
July 23,
2020 - Last night,
while watching the local news on TV, they
had a brief story about how the Food and
Drug Administration (FDA) has ordered the
recall of 75 different bands of hand
sanitizers. I don't think I've ever
bought any hand sanitizers, but my immediate
thought was that some kind of hand sanitizer
on shopping cart handles may have caused the
bad case of hand blistering I suffered back
in June. (Click HERE
to see my paper about it.) So, this
morning I researched the topic.
FDA
expands hand sanitizer recall to at
least 75 brands across the U.S.
The recalled products
contain methanol, or wood alcohol, which
can be harmful if absorbed through the
skin or fatal if ingested.
Methanol is used
industrially as a solvent, pesticide and
alternative fuel source, according to the
Centers for Disease Control and
Prevention. Exposure
to it can cause nausea, vomiting,
headache, blurred vision, permanent
blindness, seizures, coma, permanent
damage to the nervous system and
death.
"Methanol is not an
acceptable active ingredient for hand
sanitizers and must not be used due to its
toxic effects," the FDA said, noting its
investigation of methanol in certain hand
sanitizers is ongoing.
Cleaningremoves
germs, dirt, and other impurities from
surfaces, but doesn't necessarily kill them.
Sanitizinglowers
the number of germs on surfaces or
objects—either by killing them or removing
them—to a safe level, according to public
health standards or requirements.
Disinfectingkills
germs on surfaces or objects.
So, it's just a matter of how
many germs get killed?
Sanitizing lowers the number of germs by
killing them, and disinfecting just kills
germs? I could be wrong, of course,
but it seems to me that if you are trying to
kill germs on grocery cart handles, you
would use a disinfectant, the stronger
chemical. And yet the news stories say
it is the sanitizers that can kill
you? Of course, when you use a sanitizer
you put a glob of it on your
hands. When you disinfect a
shopping cart handle, you spray it on the
handle and then wipe most of it off.
So, the handle has less of a stronger germ
killer. Here's more from that same
article:
If you want to get really
technical, the Environmental Protection
Agency (EPA) defines sanitizers as
chemical products that can kill at least
99.9% of germs on hard surfaces (that
percentage should go up to 99.99% of germs
on surfaces used for food service).
Disinfectants are, again, stronger,
killing 99.999% of germs on hard,
non-porous surfaces or objects.
The difference really
boils down to the fact that sanitizing
solutions aren’t as strong as
disinfecting solutions. But some
products can be both sanitizers and
disinfectants. Case in point, Dr. Calello
says, is concentrated bleach: It can be a
disinfectant, but if it’s very diluted, it
might be a sanitizer (meaning, again, that
it kills less bacteria and viruses).
That doesn't quite make
sense. Disinfectants on shopping carts
can give children a rash, but sanitizing
chemicals on an adults' hands can kill
people without doing any damage to their
hands? I'm going to have to research
it further. It looks to me like
someone is just not putting 2 and 2
together. Maybe it's me.
July 22, 2020 -
Hmm. Yesterday, someone in my "Time
and Time Dilation" Facebook group
started a thread about some physicists who
disagree with Albert Einstein. From
what I could tell by doing some quick
research, they were just more
anti-Relativity physicists like the dozens
and dozens I have argued with on the
sci.physics.relativity forum and in
other places over the years. They are
mathematics oriented and they will call you
names and attack you personally if you
cannot discuss math equations with
them. Then, this morning I did some
more research and found that one of them
goes beyond what the others
do.
Why
are so many Relativists Pedos? Lol Relativity...
the #1 model preferred by
pedophiles. I
think a lot of these
people are involved
with devious stuff
and just so happen
to think the same
scientifically. Like
their brains are
wired a certain way.
Wow!
The article was about
a physics conference
held in 2006 on the
Island of Saint Thomas
in the Virgin
Islands. The
conference was
arranged by
theoretical physicist
Lawrence
Krauss who
described things this
way:
I
invited a group of
cosmologists,
experimentalists,
theorists, and
particle physicists.
Stephen Hawking
came. We had three
Nobel laureates:
Gerard 't Hooft,
David Gross, Frank
Wilczek;
well-known
cosmologists and
physicists such as
Jim Peebles at
Princeton, Alan Guth
at MIT, Kip Thorne
at Caltech, Lisa
Randall at Harvard;
experimentalists,
such as Barry Barish
of LIGO, the
gravitational wave
observatory; we had
observational
cosmologists, people
looking at the
cosmic microwave
background; we had
Maria Spiropulu from
CERN, who's working
on the Large Hadron
Collider—which, a
decade ago, people
wouldn't have
thought it was a
probe of gravity,
but now due to
recent work in the
possibility of extra
dimensions it might
be.
And the article also
contains this:
The topic of the meeting
was "Confronting Gravity." Krauss intended
to have "a meeting where people would look
forward to the key issues facing
fundamental physics and cosmology". They could meet,
discuss, relax on the beach, and take
a trip to the nearby private island
retreat of the science philanthropist
Jeffrey Epstein, who funded the event.
And, like a good
mathematician putting 2 and 2 together, this
mathematician evidently came to the
conclusion that everyone who attended the
event was a pedophile like Jeffrey
Epstein. Wow.
July 21, 2020 - My
plan when I awoke this morning was to write
a comment about two scientists who have web
pages where they argue against Einstein's
theories and promote their own. People
on Facebook have been telling me about
them. Plus, I've been digging through
web sites looking for other scientists who
have such theories. There are probably
thousands of them. A somewhat
dreaded the idea of comparing their various
beliefs, but that was my plan this
morning. Then, when I looked at the
Covid-19 statistics for this morning,
I felt I had to analyze those
statistics instead.
Starting back on March 9th, I began doing
daily screen captures of
some of the Covid-19 data provided by
Johns Hopkins University. Below
is a shrunk-down copy of the main page they
displayed as of 7:42 a.m. this morning (you
can click on it to view the full size
version). I do a screen capture of it
every morning:
As you can see the total world-wide number
of confirmed cases of Covid-19 this morning
was 14,735,331. A graph of the total
confirmed cases is shown in the lower right
corner as a yellow line that keeps going
higher and higher instead of leveling
off.
However, on the Johns Hopkins site, when you
click on "Daily Cases" option below the
graph in the lower right corner, you get a
different graph instead of the "Confirmed
Cases" graph. It's a graph that is
definitely of more value than a "total
cases" graph that just goes up and up until
it levels off. I'm more interested in
how many new cases
there are, instead of some running total.
And there is something else about that
"Daily Cases" graph that has been bugging me
for weeks. Here's what it looked like
as of this morning:
There appears to be a definite up-down
pattern to the cases (a pattern within
the upward pattern), and it seems
to be a weekly pattern. You can see
that the daily cases show as bumps that get
repeated, but each bump gets a bit higher
each week.
I used the daily worldwide confirmed cases
number from the main page to prepare a
spreadsheet of the daily differences, i.e.,
the change between today's total cases and
yesterday's total cases, going back for
about a month. Here's that graph:
It's a graph of the daily difference
compared to the day before, instead of the
daily total. As of this morning, as
stated above, the total number of worldwide
confirmed cases was 14,735,331.
The total yesterday was 14,535,008, so the
calculated daily difference for July 20 is
200,323. That is presumably the total
number of new
confirmed cases reported between about 8
a.m. on the 20th and about 8 a.m. on the
21st. It's the number we want to go
back to zero.
I'll have to go back further to verify the
pattern, but it seems to clearly show
that most cases are identified and
confirmed on Fridays. (There seems to
have been an end-of-month glitch somewhere
that resulted in "only" 82,991 cases on June
30. It doesn't show on their graphs,
but it shows up when you look at daily
changes in the totals.)
I don't know what it means, but I find it
very interesting. Do most people wait
to get checked after work on Fridays and on
Saturdays? It would appear so.
July 19, 2020 - Sigh!
Once again I have nothing prepared for today's
Sunday comment. So, I'll have to write
something from scratch.
I got involved in two discussions yesterday that
might be worth mentioning. The first was
prompted by a post to the Astrophysics
And Physics Facebook page. Someone posted a message about "cold
welding." I don't think I've ever
heard of cold welding before, but it
is definitely not anything new. It
appears that, in a vacuum, two pieces of
identical metal can automatically weld
themselves together. Here is what Richard
Feynman said about it in one of his lectures:
The reason for this
unexpected behavior is that when the atoms in
contact are all of the same kind, there is no
way for the atoms to “know” that they are in
different pieces of copper. When there are
other atoms, in the oxides and greases and
more complicated thin surface layers of
contaminants in between, the atoms “know” when
they are not on the same part.
So, in theory, if you are in space
and put two pieces of copper together, they will
fuse into a single object. In practice,
however, the surface of the copper must be
without any contamination. And that isn't
likely to be the case if they were made on earth
and then taken into space. Atoms in the
atmosphere will contaminate the copper atoms on
the surface of the objects. If the copper
objects were made in a vacuum, however, the
copper atoms in a surface will bind to other
copper atoms in a different surface because the
copper has no way of knowing it shouldn't.
The other discussion was also on Facebook and
also involved a quotation by Richard
Feynman. It is from page 91 in the book "The
Character of Physical Law.":
It is evident,
is it not, that if you are in a space ship
going at 100,000 miles a second in some
direction, while I am standing still, and I
shoot a light beam at 186,000 miles a second
through a little hole in your ship, then, as
it goes through your ship, since you are going
at 100,000 miles per second and the light is
going at 186,000, the light is only going to
look to you as if it is passing at 86,000
miles a second. But it turns out that if you
do this experiment it looks to you as if it is
going at 186,000 miles a second past you, and
to me as if it is going 186,000 miles a second
past me!
I first used Google to convert 100,000 miles per
second to kilometers per second, which the
calculator requires. The answer was 160,934.4
kps.
Then I plunked 160,934.4 kps into the calculator
to see what percent of the speed of light that
is. It's 53.681937522257% of the speed of
light.
Then I used spreadsheet software to calculate
what 53.68 percent of 186,262 miles per second
is, and the answer is 99,999.7 miles per second.
Round that off and you get 100,000 miles per
second.
So, if I am traveling at 100,000 miles per
second and I see a photon pass by me that was
emitted by someone stationary, I will see that
photon pass by me at about the same speed as
photons I create. I'm traveling at 53.68
percent of the speed of light, and at that
speed, any light I emit will travel at 53.68
percent of the speed of light as emitted by
someone stationary.
But, of course, most mathematicians will totally
and heatedly disagree.
The problem is: I awoke this morning wondering
if it wasn't possible to perform some form of
that experiment. You do not have to travel
at 100,000 miles per second to prove the
concept. The problem is measuring the
one-way speed of light. As I understand
it, it is only impossible to measure the one-way
speed of light IF you do not know the length of
a second at the source. I.e., what is the
length of a second used to determine c
at the source?
DAMN!!! I did it
again! I wrote a comment that ends with an
unsolved problem! I really want to stop
doing that. The problem looks like it can
be solved, but I would need to be 100% certain
of my answer before I'd explain it
here. And I'm a long way away from
100%. And it's time to post.
Groan!
Comments for Sunday, July
12, 2020, thru Saturday, July 18, 2020:
July 17,
2020 - Back on July 9th, I
listened to a 2018 podcast from The
Infinite Monkey Cage titled "200
Years of Frankenstein." It was
a very interesting episode in which they
described Mary Shelly's 1818 novel "Frankenstein:
or, The Modern Prometheus" as "the
first book about the education of a scientist."
I'd never heard the book described that way
before. By pure coincidence, I had the
8-hour audio book version in my MP3
player. So, a few days later I started
listening to it. I finished it yesterday
afternoon.
I don't recall ever watching the 1931 movie with
Boris Karloff as the monster, although I
probably did a some point in the distant
past. Of course, I recall seeing clips
showing electricity arcing around Victor
Frankenstein as he and his servant Igor look
upon their creation and Frankenstein proclaims,
"It's alive! It's alive!"
The book is nothing like that.
Some time in the 1700's in some location near
Geneva, Switzerland, all by himself, Victor
Frankenstein assembles his creation from body
parts he has collected, and there is no real
description of what tools he used to bring the
creature to life. The creature just seems
to wake up:
It was on a dreary
night of November that I beheld the
accomplishment of my toils. With an anxiety
that almost amounted to agony, I collected the
instruments of life around me, that I might
infuse a spark of being into the lifeless
thing that lay at my feet. It was already one
in the morning; the rain pattered dismally
against the panes, and my candle was nearly
burnt out, when, by the glimmer of the
half-extinguished light, I saw the dull yellow
eye of the creature open; it breathed hard,
and a convulsive motion agitated its limbs.
So, what does Victor Frankenstein
do? Does he cheer, "It's alive! It's
alive!"? No, he runs from the room in
horror at what he has done, he runs upstairs to
his bedroom, collapses on his bed, falls asleep
and has nightmares. He's awakened when the
8-foot tall monster pulls aside the curtains
around his bed.
His jaws opened, and
he muttered some inarticulate sounds, while a
grin wrinkled his cheeks. He might have
spoken, but I did not hear; one hand was
stretched out, seemingly to detain me, but I
escaped, and rushed down stairs. I took refuge
in the courtyard belonging to the house which
I inhabited; where I remained during the rest
of the night, walking up and down in the
greatest agitation, listening attentively,
catching and fearing each sound as if it were
to announce the approach of the demoniacal
corpse to which I had so miserably given life.
Oh! no mortal could support
the horror of that countenance. A mummy
again endued with animation could not be so
hideous as that wretch. I had gazed on him
while unfinished; he was ugly then; but when
those muscles and joints were rendered
capable of motion, it became a thing such as
even Dante could not have conceived.
And then the monster goes into
hiding. The 8-foot tall monster is able to
watch people in the town through cracks in walls
and open curtains, and over the course of a year
or more he learns their language by just
watching and listening to them.
Parts of the book are the monster very
eloquently telling his side of the
story. Since his creator won't
talk with him, the monster proceeds to kill
Frankenstein's friends and relatives in order to
get his attention. Then, near the middle
of the book, Frankenstein and the monster have
this exchange:
"Devil," I
[Frankenstein] exclaimed, "do you dare
approach me? and do not you fear the fierce
vengeance of my arm wreaked on your miserable
head? Begone, vile insect! or rather, stay,
that I may trample you to dust! and, oh! that
I could, with the extinction of your miserable
existence, restore those victims whom you have
so diabolically murdered!"
"I expected this reception,"
said the dæmon. "All men hate the wretched;
how, then, must I be hated, who am miserable
beyond all living things! Yet you, my creator,
detest and spurn me, thy creature, to whom
thou art bound by ties only dissoluble by the
annihilation of one of us. You purpose to kill
me. How dare you sport thus with life? Do your
duty towards me, and I will do mine towards
you and the rest of mankind. If you will
comply with my conditions, I will leave them
and you at peace; but if you refuse, I will
glut the maw of death, until it be satiated
with the blood of your remaining friends."
"Abhorred monster! fiend that
thou art! the tortures of hell are too mild a
vengeance for thy crimes. Wretched devil! you
reproach me with your creation; come on, then,
that I may extinguish the spark which I so
negligently bestowed."
It's highly dramatic dialog right
out of some 18th Century stage play. The
monster wants Frankenstein to create a monster female
companion for him, but Frankenstein
refuses. After more of his relatives are
killed, Frankenstein decides to give it a
try. For some unknown reason, instead of
using his lab in Switzerland, Victor
Frankenstein travels to England and then to the
Orkney Islands in northern Scotland to build the
female monster. And somehow, the
monster follows him all the way!
Wracked with guilt, Frankenstein cannot complete
the job, and the monster starts killing more of
Frankenstein's relatives and friends.
So, this is the first book about "the education
of a scientist." It definitely held my
attention. I'm not sure I would have been
able to read it, but having it read to me by an
actor who speaks all the flowery language as if
done on a British stage, it was very
interesting. And, in some ways it was
educational. The word "quitted" is used
very often where people today would use the word
"left." Two examples:
We attempted to carry
him into the cabin; but as soon as he had quitted
the fresh air, he fainted.
I quitted my
seat, and walked on, although the darkness and
storm increased every minute, and the thunder
burst with a terrific crash over my head.
But the word "left" is also used.
Two examples:
My father was not
scientific, and I was left to struggle
with a child's blindness, added to a student's
thirst for knowledge.
I then reflected, and the thought made
me shiver, that the creature whom I had left
in my apartment might still be there, alive,
and walking about.
Hmm. It appears I have
quitted my plan to write fewer comments for this
web site. Woe is me! Whatsoever
shall I do to regain the impetus to seek
clarification of the deepest mysteries of
creation?
July 16,
2020 - When I
finished reading the book "Range"
on my Kindle three days ago, I wasn't sure
what to read next. So, the next day
during breakfast and lunch I just read from
a
joke book I'd borrowed long ago.
Then, the next day I prioritized the books I
have in my Kindle and I started reading a
history/science book. The first part
is about Time, so it looked like a good
choice.
Then, yesterday, my library informed me that
"Too
Much And Never Enough: How My Family
Created the World’s Most Dangerous Man"
was available for me to borrow. What?
When I recommended that my library obtain a
copy, I expected to wait six months for
it! It was just released on the
14th! But, it was available,
so I borrowed it. I'm already
listening to
a Trump book whenever I drive my
car. Do I want to read another one
right now? This morning I managed to stick
with the history/science book -- at least
until I finish the part about Time.
And, two days ago, instead of watching TV or
listening to podcasts in the evening, I
decided to listen to an audio book.
I'll probably finish it later today and
write a review tomorrow. It's a book
that wasn't on any of my priority
lists. It was just a book I felt in
the mood to try -- and I stuck with
it. It's good to have so much to do in
these worrisome times.
July 15, 2020 - Hmm.
I think I need to be more careful about what I
write on this web site. A couple times
last week, specifically on the July 9 and 12, I
rambled on and on as I tried to organize my
thoughts. That is what I do when writing a
scientific paper, where I can continue rambling,
revising and editing, until I think I'm done,
and I then put the paper on-line. When
rambling on this web site, however, I only stop
when I've run out of time for the day. And
I could be on some wrong track when I
stop. Stopping when you are on a wrong
track would be viewed by readers of this web
site as coming to a conclusion. Actually,
it's just the opposite.
On the 9th I was thinking about whether photons
oscillate while moving. Yes, they almost
certainly do, but my comment could be
interpreted as saying "Maybe not." Sitting
and pondering the question (along with other
questions) for a week made me realize just how
amazing particle physics can be. There is
absolutely no reason to believe that a photon
acts anything like an electron. If an
electron's oscillations slow down as it moves
closer and closer to the speed of light, that's
no reason to believe that a photon traveling at
the speed of light cannot oscillate. A photon
and an electron are very different, the biggest
difference perhaps being that an electron has
mass, while a photon doesn't. That by
itself says that they can have totally different
properties.
On the 12th I was rambling about Einstein's
ideas regarding "length contraction."
Since no experiment has ever confirmed length
contraction, there is no solid reason to believe
that it happens. I've studied Einstein's
1905 Special Relativity paper where he
introduces the idea of "length contraction," but
its too heavy into mathematics, and I have
little patience with deciphering mathematical
explanations.
I've been researching the subject via Google to
see what the "experts" say, and that turns out
to be somewhat interesting. An article on
physicsworld.com begins with this:
The idea that objects
contract in length when they travel near the
speed of light is a widely accepted
consequence of Einstein’s special relativity.
But if you could observe such an object, it
wouldn’t look shorter at all – bizarrely, it
would seem to have been rotated
I think it's easier to visualize
objects contracting than rotating when they
travel near the speed of light. But the
point is that they just appear
that way. It isn't actually
happening. And the explanation is "very
simple," sort of. At least it is
understandable: If light leaves
different parts of the moving body at the same
time, that light won’t reach the observer’s
eyes at the same time.
If you are looking at a space ship that is going
to pass by you at some high fraction of the
speed of light, the light from the front
of the ship will not reach you at
the same time as light from the rear of
the ship because light from the rear of the ship
has farther to travel. So, the ship should
appear slightly longer
than it really is. But mathematicians say
it will appear shorter than it really
is. As I see it, it will only appear
shorter because you are viewing it at an angle,
which means it would also appear shorter even if
it was standing still.
And I'm once again doing something I stated
earlier in this comment that I was going to stop
doing. I'm viewing physics problems from
different angles without any firm idea as to
which angle is correct.
I should probably erase most of this comment,
but I hate to do that because I spent so much
time on it. Groan!!!
That also makes it clear that I am spending too
much time on writing comments for this web
site. I should be spending that time
writing papers. I'm going to have to
figure out some way to write maybe one or two
comments per week here, instead of writing a
comment almost every day.
July
14, 2020 - Yesterday
afternoon, after I spent at least 2
hours copying all my journal entries for the
past month from the journal with the red
imitation leather cover that is falling
apart into a new journal with a cardboard
cover, I finished reading another library
book on my Kindle. The book was "Range:
Why Generalists Triumph in a Specialized
World" by David Epstein.
It was an excellent, eye-opening book that
answered a lot of questions for me.
The basic premise is that people who do not
specialize in a given field but instead
change from field to field until they find
the one they totally enjoy are the people
who are the innovators and top performers in
nearly every field, from sports to art, from
politics to physics.
For me, that strikes home in many
ways. I think it explains why I see
Relativity very differently from many
professional physicists, and it also
explains some memorable events in my
life. Most notably, it explains my
lone patent. When my brother
died, I volunteered to help keep his
hydraulic flow meter company running until a
buyer could be found for it. I knew
nothing about hydraulics, but I was a
business systems analyst and systems manager
for many years. Analyzing problems and
fixing them was what I did for a living for
decades.
I was running my brother's company for about
a month when I learned that the company was
continuously getting requests for a type of
hydraulic flow meter that they didn't
make. All the company's flow meters
measured the flow of liquids in one
direction through a pipe. A lot of
customers needed a flow meter that measured
the flow of liquids in both
directions. Before my brother formed
his own company, he had worked for a
different company that made flow
meters. That company also had no
bi-directional flow meters because they
considered such a device to be impossible
using their technology. My brother
felt the same way. It was impossible
to change his flow meters to be
bi-directional. The only way to create
such a meter was to start from scratch and
build a totally new device.
I didn't see any problem at all. Two
months later, I had built a bi-directional
flow meter with only 2 new parts, I had
tested it and patented it, and we were
beginning production. The first order
was for $20,000 worth.
I could also see why my brother and his
previous employer felt it was impossible to
modify their basic one-direction flow meter
to create a bi-directional flow meter.
What I didn't see was that the meter I had
invented had a defect that I didn't know
about because I had no experience.
However, I discovered what that defect was
when I drove to a potential customer's steel
manufacturing plant and tested the meter in
action. I fixed the problem with a
paper clip. The production version had
a pin in the place where I'd put the paper
clip.
The pin is not part of my patent because it
is only needed under certain conditions,
which just happened to be the conditions
under which I did the first field test.
Innovation is what non-specialists do
best. They see things from different
angles. Specialists just know how existing
things work and how to fix them when they
break.
That fact that Einstein was a patent clerk,
not a professional physicist, when he
discovered Relativity says that he was able
to see things from a different angle.
He wasn't wearing "mathematical blinkers"
that kept him focused on a specific
path. Later, things changed.
According to David Epstein's book:
As
astrophysicist Glen Mackie wrote, “A
consensus seems to exist: in later years,
Einstein worked with mathematical
blinkers, immune to relevant discoveries,
and unable to change his method of
investigation.” God does not play dice
with the universe, Einstein asserted,
figuratively. Niels Bohr, his contemporary
who illuminated the structure of atoms
(using analogies to Saturn’s rings and the
solar system), replied that Einstein
should keep an open mind and not tell God
how to run the universe.
Here are a couple
additional relevant quotes:
As psychologist
and prominent creativity researcher Dean
Keith Simonton observed, “rather than
obsessively focus[ing] on a narrow topic,”
creative achievers tend to have broad
interests. “This breadth often supports
insights that cannot be attributed to
domain-specific expertise alone.”
and
Scientists and
members of the general public are about
equally likely to have artistic hobbies,
but scientists inducted into the highest
national academies are much more likely to
have avocations outside of their vocation.
And those who have won the Nobel Prize are
more likely still. Compared to other
scientists, Nobel laureates are at least
twenty-two times more likely to partake as
an amateur actor, dancer, magician, or
other type of performer. Nationally
recognized scientists are much more likely
than other scientists to be musicians,
sculptors, painters, printmakers,
woodworkers, mechanics, electronics
tinkerers, glassblowers, poets, or
writers, of both fiction and nonfiction.
And, again, Nobel laureates are far more
likely still.
When I argue with the
mathematicians on the
sci.physics.relativity forum it is clear
that they are mostly specialists, and they
refuse to even discuss ideas with me unless I
learn the special math-based language they use
in their specialty. They talk dogma,
believe dogma, and are interested in nothing but
dogma. And they endlessly argue with
others who believe a different
dogma.
"Range: Why Generalists Triumph in a
Specialized World" is filled with
fascinating examples of people entering a new
field and seeing things from a different angle,
resulting in innovations and inventions that
specialists in that field would never have
thought of in a million years. I highly
recommend the book.
July 13, 2020 - Groan!
I not only write comments on this web site
about what I've been doing and thinking, I
also keep a journal. These days, the
journal is basically just a record of what I
did during the day and what kind of day it
was. Plus, I weigh myself every
morning and record my weight in the
journal. During the past month, my
weight has ranged from 188.0 to 191.4
lbs. It was 190.0 on June 11, when I
started volume #30 of my journal, and it was
190.0 this morning. I'm six feet tall, so
that's an okay weight.
The first entry in volume #1 of my journal
is dated January 30, 1982, and begins with
this:
After exercising 3
times per week at the Chicago Health Club
since last October, I'm now down to
201½. I started a 215 or 218.
I wasn't involved in science back
then, and I didn't have a web site. The
journal was mostly about how things were going
at the place where I worked.
Anyway, when I started the latest volume of my
journal on June 11, I used the only blank
journal I had, and the imitation leather cover
material seemed to be falling apart.
Here's what it looked like this morning:
I bought a new journal,
and now I have the question: "Do I continue
using the journal shown above, do I consider it
complete and start a new journal, or do I copy a
month's worth of entries (12 pages) from the one
that's falling apart into a new journal and then
throw away the one shown above?
Or do I just sit here staring at volume #30
wondering what to do, and do nothing else for
the rest of the day? That seems to be the
path I am on.
July 12, 2020 -
Yesterday I learned a couple things that I'm
really going to have to think about.
I'm still on the subject of "What is
time?". And I've always had a feeling
that Einstein's beliefs about
length contraction were somehow in
error. Yesterday, that became a near
certainty.
It all began when I found four more messages
from Dono in my log file yesterday morning:
I have said very often that
I believed "Time is particle spin."
That does NOT mean that "time
is motion." It means that time is the
elementary cycles of
sub-atomic particles that have mass.
Those cycles are happening for all objects
that have mass, whether stationary or
moving. Particles such as photons,
which have no mass, do not experience
time. That also shows that motion is
separate from time. Besides, there are
different kinds of "motion." Spin is
very different from lateral motion.
In addition, "particle spin" does not mean
that a particle is actually spinning.
It means that the effects
of the particle are those of a spinning
particle. Science has not yet
progressed to the point where the physical
appearance of a sub-atomic particle can be
studied. We can barely produce
images of atoms in an electron
microscope. The image below is
of sulfur atoms.
Sub-atomic particles are vastly smaller than
atoms. According to one
source, if the individual atoms in the
picture above have a radius of one 10
billionth of a meter, those atoms are 100
million times larger than an electron.
So we have a long way to go before
we can produce actual images of electrons
and other sub-atomic particles that comprise
an atom. Until then we just think of
them in terms of other things we can
visualize, like little planets orbiting a
star.
Since "particle spin" is a term that may
have nothing to do with reality, it's
probably not a good idea for me to continue
to argue that "Time is particle spin."
I need a better definition.
There seem to be a lot of clues
about what time is and how time works.
A few:
1. Atoms seem to have no properties
which could also be a property of
time. Time must therefore be
controlled by something smaller than an
atom.
2. Atomic clocks demonstrate that time
slows down when the fundamental cycles of sub-atomic
particles are affected by motion or gravity.
3. When time slows down due to the
motion of an object, time slows down ONLY
for the object that is moving, such as an
atomic clock. That object's motion
affects the rate of time for nothing else.
4. Time also ticks at different rate
depending upon altitude.
5. Einstein's ideas about "Length
Contraction" seem to be a similar concept,
except that, instead of particle spin
slowing down, length contraction has
particles (and atoms) being compressed
in the direction of movement. That
compression supposedly slows them down,
thereby slowing down time.
6. Einstein's ideas about length
contraction have never been confirmed by
experiment.
Over 4 years ago, I
wrote a paper titled "What
is Time?" It seems
clear that I need to revise that paper
to include things I've learned since
then. And I also need to get a
better idea of what Einstein was
trying to do when he dreamed up
"length contraction." It seems
he saw certain things the same way I
see them:
1. If speed and altitude slow
down time, then time must be something
that can be affected by speed and
altitude. Time cannot
be just an idea (or "an illusion").
2. Aging and decay are effects
of time. Time causes molecules
to break down and disassemble.
An idea or illusion cannot
do that.
3. Since it is normal for time
to pass at a steady rate, time
probably consists of something that
executes regular cycles of some kind.
4. While it seems strange to
describe time as if it were an object,
there is nothing preventing it from
being an object if everything that
shows the effects of time is
constructed from such objects.
Okay. Instead of saying that
"Time is particle spin," it would
probably be much better if I stated
that "Time is a property of
fundamental particles."
Will that just generate arguments over
what "property" means.
Merriam-Webster's definitions of
"property" seem to help:
a
: a quality or trait belonging and
especially peculiar to an individual
or thing
b
: an effect that an object has on
another object or on the senses
So:
Time is a property of fundamental
particles that has an effect on
everything that is constructed from
those particles.
Hmm. I think I'll stick with the
short version. It is easier to
remember, and everyone should know
that if you build something from
"fundamental particles," the
properties of those particles will
have an effect on whatever you've
built.
I think Einstein may have seen things in
somewhat the same way, except that in 1905
they didn't really know the components of an
atom. The
nucleus of an atom was not discovered
until 1911. In 1905, atoms were
considered to be somewhat solid objects
(like a blob of "plum pudding"), so
compression of such objects in order to slow
time could have made more sense. That
seems to be how Einstein developed the idea
of "length contraction." If speed
causes time to slow down for an object, then
speed must have some effect on that
object. What effect? To
Einstein, compression in the direction of
moment was the only possible effect that
came to mind. And somehow that
compression causes time to slow down, just
the way compression makes it more difficult
for people to move around in a crowded
railroad car than a nearly empty car .
I'll have to study Einstein's "length
contraction" idea more closely. It is
clearly a product of the era in which it was
dreamed up. And we know a lot more
about atoms today. Einstein was on the
right track, but we now know the "track" is
a lot longer than Einstein thought, and I
think he got off at the wrong spot.
Comments for Sunday, July
5, 2020, thru Saturday, July 11, 2020:
July
11, 2020
- Yesterday
evening I listened to six
podcasts about time. While
several of them contained
interesting bits of information,
none addressed the specific
question I am seeking to answer:
How does time work?
But some of the podcasts were
thought-provoking, and some may
have caused me to look at
certain things in a different
way.
The first podcast I listened to
was the
RadioLab episode on "Time".
The episode was mostly about the
history of clocks, which I've
studied many times before.
It is only interesting now
because of all the battles they
had back in the 19th century to
standardize time. It was
somewhat like today's problems
in getting people to wear face
masks. Some people felt it
infringed upon their human
rights. They wanted to
keep their own time, not have
some time zone
forced on them by the government
or by railroads. There
were even "time riots",
because people refused to change
their ways.
Physics Professor Brian Greene
was on the program. I'm no
fan of Professor Greene,
but he did well on this
podcast. He stated that
time is not
universal. So, when you
travel fast and experience time
dilation, you are only
changing the rate of time for
yourself, not for anyone else
nor for anything not traveling
with you. Interestingly,
Prof. Greene stated that he
has never owned a watch.
The point was also made that
time is measured by clocks, not
by feelings. Duh!
Next I listened to all five
parts of the podcast "About
Time." The parts
were titled:
1.
The Language of Time
2. The Physics of Time
3. The Psychology of
Time
4. The Physiology of Time
5. The Construction of
Time
Part 1 made three
interesting points: (1) "Time" is the most
frequently used verb in the
English language. (2) Time can be
subjective or "absolute". (3) Different
cultures view time differently.
That last point was interesting because
primitive cultures tend to relate time to events.
It's "hunting time" or "work time" or
"supper time" or "meeting time."
Part 2 pointed out that Aristotle stated
that "time is a measurement of
change." Other than that, the episode
was just about how time is an "illusion"
because it can go fast or slow depending
upon whether we are doing something that is
interesting or boring.
Part 3 was more of the same. It had
noting to do with physics, only about how
time is viewed.
Part 4 was more of the same, only this time
it was about biological clocks and cycles
that are built into our bodies. It had
one interesting claim: "Tissue repair is 5
times slower at age 60 than at age
10." I think that all depends upon how
well you protect your immune system.
Part 5 was more about the history of time
keeping. It also had a bit of
philosophy: "Everyone is born with a
certain amount of time. Our job is to use it
well."
While there was nothing of significant
interest in any of those six podcasts, it
was interesting to listen to people who are
supposedly physicists talk about time as
being an "illusion" because it seems to go
faster when you are having fun and slower
when you are bored. And no one -
absolutely NO ONE - made any attempt to
describe how time actually works.
July 10, 2020
- When I turned on my computer this
morning, there was an email in my
inbox advising the that my "medical"
paper "A Different Covid-19 Problem"
is now on-line at this link: https://vixra.org/pdf/2007.0058v1.pdf
And, of course, I also awoke this
morning thinking about changes I
should have made to the paper before
uploading it. First, I
definitely should have called those
things on my hands "pustules"
not "sores." Duh! Second,
I probably should have mentioned the
tiny, tightly-packed pustules that
looked like goosebumps that appeared
on the back of my fingers and on my
elbows for awhile. They just
went away and didn't seem to do any
harm, but they could be important.
Ah well. There's no reason to
believe anyone is going to read my
paper anyway. I'm not a doctor,
and anyone who happens to read it will
probably toss it aside as soon as they
see they are the observations of a patient,
not a doctor. I just cannot
believe that I am the only adult in
the world who had such a problem as a
result of grabbing a shopping cart
handle that was dripping with
antiseptic liquid.
Meanwhile, I fully expected that Dono
would post more insults and arguments
to my log file yesterday. But,
he didn't. That's good, because
I wouldn't have written about them
here anyway. It would just have
encouraged him to put more of his
arguments and insults on my log
file. I am tempted, however, to
put something on my
blog about them - particularly
since the argument really seems to fit
in with the
book I'm currently reading on my
Kindle.
And, by a really weird coincidence,
when I looked at The
Infinite Monkey Cage podcast web
site this morning, I found that
their latest podcast is titled "Does
Time Exist?" That is
exactly one of the arguments I was
having with Dono. So, after I
completed my morning chores, including
writing a first version of this
comment, I listened to that
podcast. It was mostly a big
disappointment. They just
discussed silly issues such as "why
can we remember the past but not the
future" and time travel as depicted on
the TV series "Dr. Who." One of
the guests, a physics professor, did
occasionally try to get people into
some more meaningful areas of
discussion. But everyone else
seemed determined to argue about
issues that have been argued about for
centuries, like: Why is there there no
global "now"? That is NOT the
question to ask! As I see it,
the key question is "How does
time dilation work?"
But I don't recall them ever really
discussing time dilation.
However, I also found two other
podcasts about "time" that I also need
to check out. One
on RadioLab looks interesting,
even though it is from May 29, 2007.
And I found a
5-part podcast about Time called
"About Time" that might be worth
listening to.
Time will tell.
July 9, 2020
- Yesterday, instead of working on one
of the items on the list of "things to
do" I wrote about, I worked on a medical
paper. The paper is titled "A
Different Covid-19 Problem."
I think I'm about 90% done. The
paper consists mostly of color
pictures I took of my hands as I went
through some kind of skin problem back
in June, a problem which I diagnosed
as resulting from grabbing a shopping
cart handle that was dripping with
some kind of disinfectant.
The paper isn't presented as being
some medical discovery, it's presented
as being something that may
be a minor medical issue which doctors
and others should be made aware of -
if they aren't already.
The pictures tell the story. As
I see it, my hands were
unintentionally exfoliated.
Skin cells on my hands were killed by
the chemical, and the dead cells were
then replaced by new skin cells.
The end result was that my hands ended
up softer and healthier than they were
before I touched that shopping cart
handle. If I'm wrong about what
I think happened, then maybe someone
will correct me. I'm hoping to
complete the paper and submit it to vixra.org
later today or sometime tomorrow.
Meanwhile, that guy who posts messages
to me on my web site log file did it
again yesterday. Let's call him
"Dono." Dono posted multiple
copies of 4 different messages, which
were all in response to what I wrote
in yesterday's comment. No one
responded to what I posted to the
sci.physics.relativity forum, so
that discussion seems to have
ended, and the only other place I can
discuss the log messages is
here. So, I'll go through them
one by one. The first message
was:
Interestingly, IP address 18.27.197.252 belongs
to the Massachusetts Institute of
Technology (MIT) in Cambridge,
Massachusetts. I have no idea
how Dono managed to use that IP
address, but hackers often use
addresses that trace back to
Microsoft's web sites, so why not MIT?
Dono wrote "You use time to measure in
the same way you use numbers to
count." Really? When you use
numbers to count, each numerical unit
represents an object. But when
you use time to measure, what are you
using to measure what? Aren't
you using numbers to count units
of time? But what is a "unit
of time"? It's definitely not an
object. It is a cycle
of some kind, and that cycle is used
as a unit of time. For example,
one cycle is one "tick" for a clock,
one day for the Sun, one month for the
moon. You do not use time to
measure cycles, you use cycles to
measure time.
Hmm. As I see it, Time is
particle spin. But that doesn't mean that
"time is motion." Particles spin
at a specific rate.Clocks
tick at a specific rate.
Motion involves no specific time element. The
fact that motion occurs in time doesn't change
anything. But, it's an interesting look
into Dono's thought processes. It is not
motion that is important, it is a regular cycle
of motion. Regular cycles are used to
measure time. And one type of cycle
IS fundamental time.
Particle spin occurs
in time and it is the
cycle that is time itself.
It is the fundamental cycle
against which all other cycles
are measured.
All regular cycles of objects can be
measured using the cycles known as
"particle spin." In fact, that
is done every day, since it is just a
way of saying you can use atomic
clocks to measure all other kinds of
cycles.
Wow! That's deep! The
fundamental and smallest unit of time
(one particle spin) is used to create
all larger units of time. All
larger units of time are just
multiples of a particle spin.
That's simple enough to
understand. And the smallest
unit of time is time itself.
Photons do not experience time, they
do not age nor decay, because they
travel at the speed of light.
That poses three questions: (1) Do
photons oscillate as they move?
(2) If so, why? (3) If not, how
does it transfer its energy?
If a photon does NOT oscillate, then
it is still a photon, because it is
still a tiny bundle of energy
traveling at the speed of light.
However, that tiny bundle of energy must
also be shaped like a wave.
Its shape determines it's
frequency. It's frequency is how
quickly a complete wave passes
a given point. The length of
that wave also represents how much
energy the photon contains. The
more compressed the wave is, the more
energy it contains.
Hmm. I'm going to have to think
about that. But first I want to
finish my "medical paper."
July 8, 2020
- Groan! So much to do and
so little time to do it!
I've got about 50 books on my list of
books to read, and another 30 audio
books on my list of audio books to
listen to. Plus, I'm still
arguing on the
sci.physics.relativity discussion
forum. And I've got a
bunch of papers I want to write.
And I've got two sci-fi novels I need
to revise and self-publish. And
I keep thinking I should write a book
summarizing my scientific
papers. And I've got a couple
hundred podcasts I want to listen
to. And on and on and on and on
and on.
Plus, this morning the tank or flush
lever in my toilet stopped working.
It doesn't look
difficult to fix, but it's not as
simple as the version shown
above. And due to Covid-19, it's
awkward to ask the maintenance man to
fix it. It looks like I can fix
it with a piece of string or a piece
of twist-tie. I just need to
find the time to study the
situation. (I can still flush
the toilet, but I have to lift the
cover on the top of the tank in order
to lift the "tank lever".)
In addition, this morning, that person
who sends me messages via my log file
did it again. I found 5 copies
of this message in my log file for
yesterday's activity (with my
highlighting in red):
Sigh!
"Time is a measurement"? A
measurement of what?
Time? Time does not tick, but
clocks tick as they measure
time. Anything and everything
that measures time does so by
repeating regular cycles of some
kind.
A photon traveling at the speed of
light does not experience time.
It can travel for billions of years
and be no different from when it was
created. A photon takes 8.3
minutes to travel from the Sun to the
Earth. A photon has no way of
knowing that. It is something
that humans have figured out.
This looks like it could be a way to
explain things to the guy who put
those messages in my log file.
(What he does is look for a
non-existent web page on my web
site, and my log file shows he
couldn't find it. Error
404. The name of that
non-existent file then shows up in my
web site's access log as his
message. IP address
144.91.106.71 belongs to a
web host he uses in
Munich, Germany.)
What is time? I wrote a
paper on that topic. The
only way I can explain it is to refer
to time dilation. The faster you
move, the slower time passes for you
and the slower you age. That
suggests that time is particle
spin. In order to obey the
law that nothing can travel faster
than the speed of light in our
universe, particles must
spin slower when they move
faster. In doing so, they age
slower and they last longer before
they decay. (That is demonstrated
with muons.) So, time
is particle spin. That
says that time does
"tick." One "tick" is one
spin (or oscillation) of a subatomic
particle.
That's how atomic clocks work.
It is WHY atomic clocks work. It
may not be the best way to explain how
time works, but it's the best way I've
come up with.
And, it seems like something I should
try to explain to the guy who posted
those messages to my log file.
One way to do that is to write
something here, which I've done.
But it's easier to discuss
it on sci.physics.relativity.
So, I'll do that, too. Sigh.
July 6, 2020
- Hmm. On my Kindle, I've been
reading what might be called a
"science book." It's a
book about how generalists seem to
do better in today's world than
specialists. While reading
during lunch today, I came across this
passage in Chapter 2:
Words that represent
concepts that were previously
the domain of scholars became widely
understood in a few generations. The word
“percent” was almost absent from
books in 1900. By
2000 it appeared about once every
five thousand words.
On the
sci.physics.relativity discussion
forum I've been arguing that
Einstein's Theory of Special
Relativity is about how time slows
down when you travel at very high
speeds, and the higher the percentage
of the speed of light that you travel,
the slower time passes for you.
What I read about the word "percent"
made me wonder if Einstein ever used
the word. I searched his
1905 paper for "percent" and
"percentage" and found that he
used neither word. The
German word for percent is
"Prozent." In the German version
of is paper, that word does not
appear, nor does "Prozentsatz."
He also doesn't use it anywhere in his
1920 book "Relativity: The Special
and General Theory."
That makes me wonder if Einstein's
explanations are so convoluted and
difficult to follow because he didn't
know the word "percent."
"Percentage" wasn't a "concept" that
was in common use in his time.
And so he had to explain things in a
convoluted way because that word was
not available to him.
I wonder what other modern words were
also not known back then, words which
would greatly help to simplify what he
was saying.
I could be totally wrong, of course,
but I've been editing a lesson on the
subject of "Special Relativity"
prepared by a physics teacher,
explaining to the teacher that the
lesson is totally WRONG about several
important things - primarily regarding
a mistaken belief that "If two
observers are in motion relative to
each other, each sees the other's
clock run more slowly." That is
total nonsense and has
been confirmed to be nonsense in many
experiments. My hope is to
get the teacher into a discussion
about such "errors." If not that
teacher, then I'll try some other
teacher who teaches the same
crap.
July 5, 2020
- I hope everyone had a
great 4th of July, in spite of the
Covid-19 pandemic. In my area,
nearly all the city-sponsored
fireworks celebrations were cancelled,
yet I could hear fireworks going off
constantly from about 5 p.m. until
after 11:30 p.m., and from my second
floor balcony, which faces north, I
could see aerial fireworks displays
going off in at least three different
locations, to the northwest, to the
north and to the northeast. And
it sometimes seemed there were other
locations in-between.
Presumably, most were individual
celebrations using fireworks they
bought in stores outside of town and
set off in their backyards, but, if
so, it was one celebration after
another with major aerial
displays.
The arguments I was having on the
sci-physics-relativity discussion
forum seemed to have died
down. I saved the
entire thread of 176 posts, some
of which were very
interesting. I would try to
explain Special Relativity as I
understand it, and they would just
recite dogma in response. I
would quote Einstein, and they would
claim that Einstein didn't mean what
he wrote. But the most bizarre
claims came from a guy named "Tom
Roberts" who repeatedly claimed I was
just making stuff up, when I was
quoting from scientific
articles. And when I provided
the links to those articles, he'd
claim they were all lies.
He argued that the scientists who
wrote the papers were just lying to
the public because the general public
is simply too dumb to understand real
science.
Meanwhile, yesterday I listened to two
really terrific podcasts. When I
finished all the
Infinite Monkey Cage podcasts I
had stored in my MP3 player, and all the Astronomy Cast
podcasts and all the
Space Nuts podcasts, instead of
transferring more of those podcasts
from the stockpiles in my computer
into my MP3 player, I listened to some
podcasts in my MP3 player that I
hadn't listened to before.
Specifically, I listened to two
episodes of Big
Picture Science. The first
episode was titled "Skeptic
Check: Science Denial," from
February 3, 2020. It was all
about how science deniers work.
Their tactics began with the
scientists who were hired by
cigarette manufacturers to argue
that smoking cigarettes is NOT bad for
your health. They created a
counter argument for people who did
not want to stop smoking. Today,
we see the same thing with Global
Warming. There are scientists
who were hired by coal and oil
companies, and by car manufacturers,
to produce data that shows that Global
Warming is NOT caused by man-made air
pollution, and there is nothing to
worry about.
They also talked about "a balanced
view" which involves finding one
scientist or "expert" who is willing
to put on a show that challenges the
findings of the rest of the scientific
community. So the audience sees
two "points of view," when in reality
there are just the facts and one
person who disagrees with the
facts. The people on the podcast
called such people
"Confusionists." Their job is to
confuse the audience in order to break
up any movement that might harm big
business interests. They're
doing a good job, too, since about 30%
of the public always
deny science facts.
After finishing that Big Picture
episode, I listened to "Skeptic
Check: Betting on Pseudoscience."
In a way, it was more of the same,
except it is about how people are
being swindled out of MILLIONS of
dollars by fake psychics.
You hear almost nothing about it on
the news, but it is evidently
wide-spread and rampant. It
affects both the rich and the
poor. The rich are swindled out
of hundreds of thousands of dollars
per case, and the poor are swindled
out of smaller amounts, but there are
a lot more of them.
Evidently, we do not hear about them
because the people who were swindled
are too ashamed to tell anyone that
they were swindled by a phony psychic.
Plus, in most cases, giving money to a
psychic is NOT a crime. The
psychics promise nothing tangible
in return for the money you give to
them. Many psychics simply feed
conspiracy theories that their victims
already believe.
The show wasn't just about psychics,
some of it was also about "naturopath"
doctors who basically tell you want
you to hear when you go to them for
some medical problem. So, you
not not only lose money, you could
also lose your life.
One of the guests on the show was Lee
McIntyre, who is a research fellow at
the Center for Philosophy and History
of Science at Boston University and
lecturer on ethics at Harvard
Extension School. He wrote a
book titled "The
Scientific Attitude: Defending
Science from Denial, Fraud and
Pseudoscience." My
library doesn't have a copy, but I was
able to find that it says this in the
Introduction:
We live in extraordinary times for
the understanding of science. In May
2010, the prestigious journal
Science published a letter signed by
255 members of the US National
Academy of Sciences. It began “We
are deeply disturbed by the recent
escalation of political assaults on
scientists in general and on climate
scientists in particular. All
citizens should understand some
basic scientific facts. There is
always some uncertainty associated
with scientific conclusions; science
never absolutely proves anything.”
But how many laypeople understand
what this means and recognize it
as a strength rather than a
weakness of scientific reasoning?
And of course there are always
those who are willing to exploit any
uncertainty for their own political
purposes. “We don’t know what’s
causing climate change, and the idea
of spending trillions and trillions
of dollars to try and reduce CO2
emissions is not the right course
for us,” said US presidential
candidate Mitt Romney in 2011.
Yes, how many people
have I encountered in my lifetime who
seem to always think in terms of
absolutes: If you make mistakes, you
cannot be depended upon for
anything. Who wants to trust or
even listen to someone who
makes mistakes? It's better to
listen to someone who tells you what
you want to hear - like Trump.
And, if you want to hear what Trump
has to say, you probably have no
reason to bother to figure out what is
true and what is not. You can
just accept what Trump as to say and
ignore those who dispute him.
It's easier than thinking.
