Introduction E9F5FC

Questions FFFFC0

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粒子

• The infinite possibilities that emanate with Feynmann diagrams are like an independent thinker's myriad relationships with themselves including through others, as in the science of prayer.
• The Standard Model has three families which differ in mass, thus in the time that they may participate in a violation of conservation of energy. The three families may function as three levels of parsers, (as in the algebra of copyright), thus three levels of language.

Anti-particles

• Field symmetry is in a particle's self-interaction with itself, mediated by the field. This field symmetry is expressed by the relevant Lie group.
• Perhaps the expanding universe differentiated, segregate itself into regions of positive matter and negative matter. Pehaps dark matter and dark energy are from portions of the universe that consists of negative matter.
• A particle that is its own antiparticle.

Standard model

• Looking at the Standard Model: 12 fermions are the 12 topologies. 4 bosons are the 4 representations of the nullsome. Higgs boson is the nullsome.

Standard model: leptons mediate forces

• photon - electromagnetic force
• 8 gluons - strong force
• Z boson - weak force
• W (+,-) boson - weak force

Also:

• 6 quarks and 6 antiquarks
• 6 leptons
• 3 or 6 neutrinos
• 1 Higgs

Thus 34 or 37 particles.

• Weak nuclear force changes quark types. Strong nuclear force changes quark positions. Electromagnetic force distinguishes between quark properties - charge.
• Exchange particles - gauge bosons.
• Massless particles acquire mass through symmetry breaking:

Yang-Mills theory.

• Ženklų savybės: pirmos trys yra fermionų, kitos trys yra bosonų.
• Palyginti trinarį gyvenimą su kvarkų trejybe (trys kvarkai neišardomai susieti).