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Science > Physics |
| User: |
"Bret Cahill" |
| Date: |
21 Jan 2006 04:10:54 AM |
| Object: |
Synchronization Between Pendulums |
The forces transmitted through a wall or supporting structure are often
significant enough to synchronize two or more pendulums.
Just as using a stiffer more robust structure will add time to the
coupling process what about preventing or delaying mob behavior?
Bret Cahill
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| User: "Greg Neill" |
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| Title: Re: Synchronization Between Pendulums |
21 Jan 2006 09:09:20 AM |
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"Bret Cahill" <BretCahill@aol.com> wrote in message
news:1137838254.800663.91830@g47g2000cwa.googlegroups.com...
The forces transmitted through a wall or supporting structure are often
significant enough to synchronize two or more pendulums.
Just as using a stiffer more robust structure will add time to the
coupling process what about preventing or delaying mob behavior?
I think you want to damp the coupling path, so a nice
soft energy absorbing path between the pendulums is
called for.
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| User: "Sam Wormley" |
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| Title: Re: Synchronization Between Pendulums |
21 Jan 2006 10:04:26 AM |
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Bret Cahill wrote:
The forces transmitted through a wall or supporting structure are often
significant enough to synchronize two or more pendulums.
Just as using a stiffer more robust structure will add time to the
coupling process what about preventing or delaying mob behavior?
Bret Cahill
Coupled Pendula
http://scienceworld.wolfram.com/physics/CoupledPendula.html
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| User: "Bret Cahill" |
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| Title: Re: Synchronization Between Pendulums |
21 Jan 2006 08:41:46 PM |
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Got anything on nazis? Einstein knew but never published.
I want to be on the very last flight overseas.
Bret Cahill
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| User: "Mark Martin" |
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| Title: Re: Synchronization Between Pendulums |
21 Jan 2006 08:47:24 PM |
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Bret Cahill wrote:
Got anything on nazis? Einstein knew but never published.
How do you know that he knew if he never published?
-Mark Martin
..
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| User: "Douglas Eagleson" |
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| Title: Re: Synchronization Between Pendulums |
21 Jan 2006 08:35:19 AM |
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Bret Cahill wrote:
The forces transmitted through a wall or supporting structure are often
significant enough to synchronize two or more pendulums.
Just as using a stiffer more robust structure will add time to the
coupling process what about preventing or delaying mob behavior?
Bret Cahill
A gravitational force is required to be given a theory. And the
inconsistency with EM theory is a valid concern. In my thinking the
force of solid state is indeed amenable to gravity theory. A true
stress force is then apparent.
And to theorize implies the experiment. Making the prevention or delay
of force effect the experiment. How can the forces be altered as with
solid state kind?
And so the question appears left to experiment. An effect of gravity on
the path of cold neutrons allows this question to be examined. A state
of the system as the path may be examined. And the sensitive alteration
is then allowed.
A sensitive alteration or stress of pendulums is also allowed. And to
delay appears the common effect of theory. A state effect to make one
force effect, distinct from another.
And so the quantum state of the coupled pendulum would have to be
examined for possible transission. And the use of theory then begins. A
state of the pendulum pair is amenable to testing and the
interferometer placed in the system would reveal stress effect.
Just remember the delay as relative to a certain state transission and
not the reference of the center. A fallacy is present called the
swing:)
Douglas Eagleson
Gaithersburg, MD USA
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| User: "Gregory L. Hansen" |
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| Title: Re: Synchronization Between Pendulums |
21 Jan 2006 09:54:17 AM |
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In article <1137838254.800663.91830@g47g2000cwa.googlegroups.com>,
Bret Cahill <BretCahill@aol.com> wrote:
The forces transmitted through a wall or supporting structure are often
significant enough to synchronize two or more pendulums.
Just as using a stiffer more robust structure will add time to the
coupling process what about preventing or delaying mob behavior?
To prevent or delay mob behavior, reduce the coupling between
participants. Television is an effective way to keep them home and
prevent them from interacting on a personal level. Usenet, if anything,
increases interactions, but the interactions are too widely dispersed to
have a local effect, and it substitutes for local interactions.
--
"Work hard, be curious and persistent, and you will prevail." -- Howard
Schilit, "Financial Shenanigans" 2nd ed.
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| User: "" |
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| Title: Re: Synchronization Between Pendulums |
22 Jan 2006 07:47:56 AM |
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In article <dqtlf9$3bm$1@rainier.uits.indiana.edu>,
(Gregory L. Hansen) wrote:
In article <1137838254.800663.91830@g47g2000cwa.googlegroups.com>,
Bret Cahill <BretCahill@aol.com> wrote:
The forces transmitted through a wall or supporting structure are often
significant enough to synchronize two or more pendulums.
Just as using a stiffer more robust structure will add time to the
coupling process what about preventing or delaying mob behavior?
To prevent or delay mob behavior, reduce the coupling between
participants.
I disagree. To delay and/or prevent mob behaviour, you
increase their couplings. 50% of the participants will soon
be satiated, pooped, and asleep.
Television is an effective way to keep them home and
prevent them from interacting on a personal level. Usenet, if anything,
increases interactions, but the interactions are too widely dispersed to
have a local effect, and it substitutes for local interactions.
:-)
/BAH
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| User: "G=EMC^2 Glazier" |
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| Title: Re: Synchronization Between Pendulums |
23 Jan 2006 06:56:28 PM |
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It was Mach the same guy that took away centrifugal force with his
inertia theory. Reality is this same theory tells how the pendulum bob
will swing in unison when two grandfather clocks are in the same room
That guy Huygen's was a collector of pendulum clocks,and living close
to the top of the world also makes this effect possible.He was first to
note this TreBert
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