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New measurement of the mass of a strange atomic nucleus achieves very high precision

Started bySam Wormley <swormley1@gmail.com>
First post2015-06-16 19:26 -0500
Last post2015-06-18 18:44 -0700
Articles 4 — 3 participants

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  New measurement of the mass of a strange atomic nucleus achieves very high precision Sam Wormley <swormley1@gmail.com> - 2015-06-16 19:26 -0500
    Re: New measurement of the mass of a strange atomic nucleus achieves very high precision "reber g=emc^2" <herbertglazier0@gmail.com> - 2015-06-17 14:10 -0700
      Re: New measurement of the mass of a strange atomic nucleus achieves very high precision "hanson" <hanson@quick.net> - 2015-06-17 14:43 -0700
        Re: New measurement of the mass of a strange atomic nucleus achieves very high precision "hanson" <hanson@quick.net> - 2015-06-18 18:44 -0700

#500569 — New measurement of the mass of a strange atomic nucleus achieves very high precision

FromSam Wormley <swormley1@gmail.com>
Date2015-06-16 19:26 -0500
SubjectNew measurement of the mass of a strange atomic nucleus achieves very high precision
Message-ID<Crqdnb_RhZA0Ix3InZ2dnUU7-VmdnZ2d@giganews.com>
New measurement of the mass of a strange atomic nucleus achieves very 
high precision
> http://phys.org/news/2015-06-mass-strange-atomic-nucleus-high.html

> An international team of physicists working at the Institute of
> Nuclear Physics at Johannes Gutenberg University Mainz (JGU) in
> Germany has measured the mass of a 'strange' atomic nucleus with the
> aid of an innovative technique that is capable of significantly
> greater precision than that of previous methods. The researchers were
> able, for the first time worldwide, to observe the radioactive decay
> of artificially generated nuclei of super-heavy hydrogen at the Mainz
> MAMI particle accelerator using a combination of several magnetic
> spectrometers. They could then precisely determine the mass on the
> basis of accurate measurement of the decay product. The results have
> been published in the journal Physical Review Letters.

> Measurements such as this are particularly valuable when it comes to
> understanding the fundamental 'strong force' that holds nuclei
> together and is thus essentially responsible for the stability of
> matter. Even after decades of research, many of the details of this
> force are still unknown. The nuclei in matter that surrounds us
> consist of two building blocks, i.e., positively charged protons and
> electrically neutral neutrons. These interact in complex ways with
> and among each other. What is important is that there is a powerful
> attraction between these particles that binds them together to form
> atomic nuclei and stops them flying apart. Then the mass of an atomic
> nucleus is less than that of the sum of the mass of its components.
> According to Einstein's famous formula E = mc2, this 'missing mass'
> is represented by the energy of the bonds in a nucleus. This means
> that if the mass of a nucleus can be accurately measured, it is
> possible to determine the binding energy and thus draw conclusions
> with regard to the nature of the strong force.


-- 

sci.physics is an unmoderated newsgroup dedicated to the discussion
of physics, news from the physics community, and physics-related
social issues.

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#500781

From"reber g=emc^2" <herbertglazier0@gmail.com>
Date2015-06-17 14:10 -0700
Message-ID<602e3914-dc8b-45d2-8d9f-d096f6bc5e4f@googlegroups.com>
In reply to#500569
On Tuesday, June 16, 2015 at 5:26:19 PM UTC-7, Sam Wormley wrote:
> New measurement of the mass of a strange atomic nucleus achieves very 
> high precision
> > http://phys.org/news/2015-06-mass-strange-atomic-nucleus-high.html
> 
> > An international team of physicists working at the Institute of
> > Nuclear Physics at Johannes Gutenberg University Mainz (JGU) in
> > Germany has measured the mass of a 'strange' atomic nucleus with the
> > aid of an innovative technique that is capable of significantly
> > greater precision than that of previous methods. The researchers were
> > able, for the first time worldwide, to observe the radioactive decay
> > of artificially generated nuclei of super-heavy hydrogen at the Mainz
> > MAMI particle accelerator using a combination of several magnetic
> > spectrometers. They could then precisely determine the mass on the
> > basis of accurate measurement of the decay product. The results have
> > been published in the journal Physical Review Letters.
> 
> > Measurements such as this are particularly valuable when it comes to
> > understanding the fundamental 'strong force' that holds nuclei
> > together and is thus essentially responsible for the stability of
> > matter. Even after decades of research, many of the details of this
> > force are still unknown. The nuclei in matter that surrounds us
> > consist of two building blocks, i.e., positively charged protons and
> > electrically neutral neutrons. These interact in complex ways with
> > and among each other. What is important is that there is a powerful
> > attraction between these particles that binds them together to form
> > atomic nuclei and stops them flying apart. Then the mass of an atomic
> > nucleus is less than that of the sum of the mass of its components.
> > According to Einstein's famous formula E = mc2, this 'missing mass'
> > is represented by the energy of the bonds in a nucleus. This means
> > that if the mass of a nucleus can be accurately measured, it is
> > possible to determine the binding energy and thus draw conclusions
> > with regard to the nature of the strong force.
> 
> 
> -- 
> 
> sci.physics is an unmoderated newsgroup dedicated to the discussion
> of physics, news from the physics community, and physics-related
> social issues.

Sam like gravity the strong force needs no waves to attract. I will soon post the reality how they get space to form action over distance. TreBert

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#500792

From"hanson" <hanson@quick.net>
Date2015-06-17 14:43 -0700
Message-ID<mlspl6$lqg$1@dont-email.me>
In reply to#500781
<herbertglazier0@gmail.com> "reber g=emc^2" wrote:
> Sam Wormley wrote:
>> New measurement of the mass of a strange atomic nucleus achieves very 
>> high precision
>> > http://phys.org/news/2015-06-mass-strange-atomic-nucleus-high.html
>> 
>> > An international team of physicists working at the Institute of
>> > Nuclear Physics at Johannes Gutenberg University Mainz (JGU) in
>> > Germany has measured the mass of a 'strange' atomic nucleus with the
>> > aid of an innovative technique that is capable of significantly
>> > greater precision than that of previous methods. The researchers were
>> > able, for the first time worldwide, to observe the radioactive decay
>> > of artificially generated nuclei of super-heavy hydrogen at the Mainz
>> > MAMI particle accelerator using a combination of several magnetic
>> > spectrometers. They could then precisely determine the mass on the
>> > basis of accurate measurement of the decay product. The results have
>> > been published in the journal Physical Review Letters.
>> 
>> > Measurements such as this are particularly valuable when it comes to
>> > understanding the fundamental 'strong force' that holds nuclei
>> > together and is thus essentially responsible for the stability of
>> > matter. Even after decades of research, many of the details of this
>> > force are still unknown. The nuclei in matter that surrounds us
>> > consist of two building blocks, i.e., positively charged protons and
>> > electrically neutral neutrons. These interact in complex ways with
>> > and among each other. What is important is that there is a powerful
>> > attraction between these particles that binds them together to form
>> > atomic nuclei and stops them flying apart. Then the mass of an atomic
>> > nucleus is less than that of the sum of the mass of its components.
>> > According to Einstein's famous formula E = mc2, this 'missing mass'
>> > is represented by the energy of the bonds in a nucleus. This means
>> > that if the mass of a nucleus can be accurately measured, it is
>> > possible to determine the binding energy and thus draw conclusions
>> > with regard to the nature of the strong force.
>> -- 
>> sci.physics is an unmoderated newsgroup dedicated to the discussion
>> of physics, news from the physics community, and physics-related
>> social issues.
> 
:B::ert Glazier, the Cretin wrote:
> Sam like gravity the strong force needs no waves to attract. 
> I will soon post the reality how they get space to form action 
> over distance... and I do that when re-ntroduce myself as/with
:B:: "I am a proud Jew with a Superiority complex &
:B:: an IQ of 122", & "I do know how every thing works,.."
:B:: "Being Jewish I know this is so very true" -- Bert.
:B:: ***** "Why am I not loved by all?" --- Bert *****
:B:: "Even the FBI has me as a trouble maker and
:B:: the FBI blocks my phone from calling them. "

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#501116

From"hanson" <hanson@quick.net>
Date2015-06-18 18:44 -0700
Message-ID<mlvs5k$6hm$1@dont-email.me>
In reply to#500792
<herbertglazier0@gmail.com> "reber g=emc^2" the Hate monger,
Thief, Jewish Jailbird and Swine :B::ert Glazier, the Cretin 
introduced himself with/as:
:B:: "I am a proud Jew with a Superiority complex &
:B:: an IQ of 122", & "I do know how every thing works,.."
:B:: "Being Jewish I know this is so very true" -- Bert.
:B:: ***** "Why am I not loved by all?" --- Bert *****
:B:: "Even the FBI has me as a trouble maker and
:B:: the FBI blocks my phone from calling them. "
> 
Swine Glazier wrote:
Hanson Wake up and find mental help.
Medicare will pay 80%. You are in great need.You are wasting 
your life on fixation on being hateful. I pity you. TreBert
>
hanson wrote:
What fixation, Glazier you Swine?... You should be grateful 
and thank me that I post YOUR OWN proud words, Glazier
you Cretin. Swine Glazier, give me one good reason why I
should not honor you, daily, with your own words of wisdom
like the ones above, since everything else you say are lies.
>
Glazier, you Swine, give me one good reason why I should not
daily post that with your incessant idiotic loud mouthing & lies 
you are a horrible embarrassment for every Jew everywhere, 
day in and day out, and your hatred onto people who do not 
praise you and do not believe that your Jewish shit don't stink, ... 
for which you, Swine Glazier, then criminally threaten them with 
>
(3)
On 07Feb 2015 & on 08Feb2015:
when <herbertglazier0@gmail.com>, the Jewish Swine wrote:
Harlow HVAC, Saul Levy & Benj, I'll be sitting onyour face
to take a shit & say: "Open wide". ... after.
>
(2)
On 06Dec2014, you, Hebe Herbie, said to
"benj" <nobody@gmail.com>: Reality is you always post under
me for you are an ass kisser. For Christmas I'll shit on your kisser.
Benj, you can thank me in advance. - TreBert. ... after
>
(1)
On 25Mar2008 Swine Glazier wrote in:
https://groups.google.com/group/sci.physics/msg/3ffe7b2257cf8a9a
https://groups.google.com/forum/#!msg/sci.physics/uYtpFTRnW4k/morPVyJ7_j8J
Hanson, I will piss on your grave. And have agood laugh
when it seeps down on your face. -- Bert.
>
hanson wrote:
Swine Glazier, do you know **why** you are a Swine?
Swine Glazier, do you know **that** you are a Swine?
>
So, Glazier you Swine, the time has come for you to consider 
your legacy, ... or don't you care because you DO know that 
you ARE a Swine and you DO know WHY are a Swine. ...
Bad Scene that you have created for yourself. -- Pity.





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