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Higgs Boson X Particle Bosonic Alpha Decay Mass Electron Geo-Neutrinos Elementary Charge CERN 5g WOW SETI

August 17, 2012

Higgs Boson X Particle Bosonic Alpha Decay Mass Electron Geo-Neutrinos Elementary Charge CERN 5g WOW SETI

alpha decay bosonic 2 protons 2 neutrons higgs boson mass 3.727379240(82) GeV div C2

alpha decay bosonic 2 protons 2 neutrons higgs boson mass 3.727379240(82) GeV div C2

the standard model and the higgs boson force carriers bosons fermions quarks leptons electron muon tau neutrino down up charm strange bottom top photon z boson w boson gluon higgs boson

the standard model and the higgs boson force carriers bosons fermions quarks leptons electron muon tau neutrino down up charm strange bottom top photon z boson w boson gluon higgs boson

research notes quotes

17 August 2012 956 am edt

My thoughts:

Compare the masses of the Bosonic Alpha Decay with 2 protons 2 neutrons + Higgs Boson Particle CERN results 18 June 2012 3.727379240(82) GeV/c2.

Look at the Electric charge 2 e and Spin 0 from Alpha Particles data and compare it with the Higgs Boson data.

Exploring key words found in this data in the next blog post.

Alpha decay
Composition 2 protons, 2 neutrons
Statistics Bosonic
Symbol α, α2+, He2+
Mass 6.64465675(29)×10−27 kg[1]
4.001506179125(62) u
3.727379240(82) GeV/c2
Electric charge 2 e
Spin 0[2]

FORMULA from WOW DATA:
Alpha particles+ two protons + two neutrons bound +  helium nucleus + alpha decay + ion + electrons +
high-velocity helium nuclei 

Google
2e

Elementary charge

Quote WIKI
The elementary charge, usually denoted as e, is the electric charge carried by a single proton, or equivalently, the negation (opposite) of the electric charge carried by a single electron.[2] 

This elementary charge is a fundamental physical constant. To avoid confusion over its sign, e is sometimes called the elementary positive charge.

This charge has a measured value of approximately 1.602176565(35)×10−19coulombs.[1] In the cgs system, e is 4.80320425(10)×10−10 statcoulombs.[3]

Key words:

elementary positive charge

e is 4.80320425(10)×10−10 statcoulombs.[3]

Search WOW DATA for:

4.80320425 – As of 17 Aug 2012 this number was not found in the WOW DATA.

Google
4.80320425

Key words from 4.80320425 search:

Mass electron

constant – Mymhome.net
http://www.mymhome.net/Michiel/stuffy/consts.htmlShare
20+ items – Physical. Description, Symbol, Value. Units: SI, CGS.

mass electron me 9.10938188(72) . 10-31 9.10938188(72) . 10-28
elementary charge e 1.602176462(63) . 10-19 4.80320425(10) . 10-10

https://www.google.ca/webhp?sourceid=chrome-instant&ie=UTF-8&ion=1#hl=en&output=search&sclient=psy-ab&q=4.80320425&oq=&gs_l=&pbx=1&fp=4beb944d59246923&ion=1&bav=on.2,or.r_gc.r_pw.r_cp.r_qf.&biw=1600&bih=73

Key word:

Static electricity refers to the build-up of electric charge on the surface of objects.

https://www.google.ca/webhp?sourceid=chrome-instant&ie=UTF-8&ion=1#hl=en&output=search&sclient=psy-ab&q=4.80320425&oq=&gs_l=&pbx=1&fp=4beb944d59246923&ion=1&bav=on.2,or.r_gc.r_pw.r_cp.r_qf.&biw=1600&bih=732>

Quote
Electrical engineering is a field of engineering that generally deals with the study and application of electricity, electronics and electromagnetism.

http://etopice.blogspot.ca/p/electrical.html

17 Aug 2012 1004 am edt

My thoughts

Key words:
Electrical Engineering + field + Higgs Boson field + electromagnetism

My Thoughts continued:
You need to create an electric field in your tests, CERN.

GOOGLE
creating an electric field with geoneutrinos and electron neutrinos

Key words from search:

Neutrino – Wikipedia, the free encyclopedia
en.wikipedia.org/wiki/NeutrinoShare
Neutrinos do not carry electric charge, which means that they are not affected by the … Neutrinos are created as a result of certain types of radioactive decay, … There are three types, or “flavors”, of neutrinos: electron neutrinos, muon ….. These so-called geoneutrinos can provide valuable information on the Earth’s interior.

https://www.google.ca/webhp?sourceid=chrome-instant&ie=UTF-8&ion=1#hl=en&sclient=psy-ab&q=creating%20an%20electric%20field%20with%20geoneutrinos%20and%20electron%20neutrinos&oq=&gs_l=&pbx=1&fp=4beb944d59246923&ion=1&bav=on.2,or.r_gc.r_pw.r_cp.r_qf.&biw=1600&bih=732

My thoughts continued:

Key words from Neutrino WIKI Google data:

Google
Flavors – The Standard Model

QUOTE WIKI
In particle physics, flavour or flavor is a quantum number of elementary particles. In quantum chromodynamics, flavour is a global symmetry. In theelectroweak theory, on the other hand, this symmetry is broken, and flavour changing processes exist, such as quark decay or neutrino oscillations.

Formula idea:
Quantum number + elementary particles + quantum chromo dynamics (Google chromo dynamics) + flavour + global symmetry (Google global symmetry) + electroweak theory (Google electroweak theory) + symmetry + broken+ flavor + changing + processes + exist + Higgs Boson particle + Quark + decay + neutrino + oscillations + produce + two photons + CERN TEST RESULTS 18 June 2012 (Higgs Particle Signal with two photons left over.)

Diagram WIKI:
Flavour in particle physics
Flavour quantum numbers:
• Isospin: I or I3
• Charm: C
• Strangeness: S
• Topness: T
• Bottomness: B′

Related quantum numbers:
• Baryon number: B
• Lepton number: L
• Weak isospin: T or T3
• Electric charge: Q
• X-charge: X

Combinations:
• Hypercharge: Y
• Y = (B + S + C + B′ + T)
• Y = 2 (Q − I3)
• Weak hypercharge: YW
• YW = 2 (Q − T3)
• X + 2YW = 5 (B − L)

Flavour mixing
• CKM matrix
• PMNS matrix
• Flavour complementarity

My thoughts continued at 10 18 am edt:

The X Boson Particle that is missing might be found in the “flavour particle physics – quantum numbers diagram.”

New formula idea:

X Charge X – Related Quantum numbers + Q Electric Charge + Weak isospin + T + T3 + Lepton number + L + Baryon number + B

Combinations:

Weak hypercharge Yw
• Weak hypercharge: YW
• YW = 2 (Q − T3)
• X + 2YW = 5 (B − L)

X is the missing Boron particle (Higgs particle that stays)

More continued in next blog post

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