viernes, 10 de junio de 2016

Here, we're going to share you a video done by our classmates, about the higgs boson:

viernes, 22 de abril de 2016

It's amazing, what a beautiful work they have done! Everything in this work is perfect and wonderful.

viernes, 15 de abril de 2016

SCIENTIFIC CULTURE WORK

According to the standard model, the universe consists of different particles: six leptons, six quarks and six bosons. Quarks come together in groups of three to form larger particles such as protons and neutrons. There are 6 types, namely: up, down, charm, strange, top and bottom. Leptons are very light particles such as electrons, the muons, neutrinos and the tauons. There are also six Bosons: photons are responsible for electromagnetism, dealing gluons strong nuclear force, the W and Z Bosons are responsible for the weak nuclear force, the graviton is responsible for gravity although not yet seen, and the Higgs boson, the particle which is generated by the mass of matter.

The Higgs boson is an elementary particle proposed in the standard model of particle physics with a role in the mechanism that causes the mass of elementary particles. The mass of the particles is caused by a "friction" with the Higgs field: particles with a greater friction with this field have greater mass.



eV
n=mx/mbs
Neutrin
5x10
3,97x10^-10
Electron
5,11x10^5
4,06x10^-6
Proton
9,39x10^8
3,48x10^-3
Neutron
9,39x10^8
3,48x10^-3
Boson
1,26x10^11
1
Cesium
2,2x10^-25
1
Earth
3,36x10^60
2,66x10^49


As shown in the table, the mass of the Higgs boson is much larger than those of a neutron, electron, a proton or a neutron, and we see that it has almost the same mass of an atom of cesium. You can also see how many times you must add the mass of a Higgs boson to obtain the mass of Earth.

Mario Molina Perez, Manuela Usó Molina and Bruno Valero Tomás