Usa "proton" in una frase
proton frasi di esempio
proton
1. After eight hours none of the automatic scanners had detected the proton signature of a cooling coiled furball from the planet below
2. we try to talk about a pen itself, and more specifically, about a proton or electron as an isolated object
3. Now consider a proton within our universe
4. Take that proton outside of
5. The proton cannot
6. catheritization and stenting, a frenzy of building proton accelerators and the list
7. Eastern mystics and western poets have been telling us for a long time that whether we speak of something and nothing, Yin and the Yang, the proton and electron, we are describing two parts of an undivided whole
8. great as between the proton and the electron and more in line with the MSSM’s heavy and light charginos
9. particles are not as great as between the proton and the electron and more in line with the
10. It consists of basically a positively-charged proton in the nucleus with a
11. new nucleus therefore consists of a proton and a neutron -- a
12. (3) The deuteron fuses with another proton, producing a helium 3
13. Still, once almost a hundred light proton cannons’ firepower had been combined, they created a withering assault that even a battle class cruiser could not have withstood for long
14. their fundamental nature tied in some way to the electron and the proton
15. Unless a particle is stable in this universe, like the proton and
16. size of a proton then the field would have to stretch out almost
17. A proton will have a much harder time
18. would be it is assumed to be of the order of the size of say a proton and
19. actual proton and electrons start to decay then it is a safe assumption that
20. A neutron consists of a proton and an electron
21. this universe that consist of an anti proton and an anti electron
22. As far as we know the proton is stable – forever and
23. The reason being simply that since the proton is stable and the electron is
24. Now why exactly the proton should be stable is an
25. of the proton (is) just the energy represented by
26. So we could have, for example, standing proton
27. electron, proton, neutron etc
28. Hydrogen, the lightest element, usually consists of one proton orbited by one electron
29. Occasionally the proton is joined in the hydrogen nucleus by one or two neutrons, and those isotopes of hydrogen are known as
30. Prana is proton
31. Lloyd was to work with that team of analysts, probing the mysteries revealed by the latest proton beam particle collision to have been carried out
32. For instance the proton is dimensionless to the neutron, yet it is fluid to singularity allowing heat to flow
33. In relation to the neutron the proton is a solid but in relation to singularity the proton is liquid
34. In relation to the electron the neutron is a solid but in relation to the proton the neutron is liquid
35. Every proton calls on a flow of heat to keep cool
36. The proton contributes to that reducing of space
37. The point holds Π0going to Πand this is what every proton is worth
38. By the protons compacting the space the proton allows as it connects to singularity Π0Π
39. coldest and the proton is even prime coldest when the Universe formed because when that cold escapes it turns to heat forming space that no one can understand
40. That is, unless it is torn from its nice, safe, protective orbiting shell around a proton and is thrown out into another vacuum of space in another linear direction by another energy particle coming too close to it
41. The Hydrogen atom acts basically as a Totality, with only one proton and no dualistically balancing neutron
42. If that were true, then each proton would be identical to every other proton, each atom would be identical to every other similarly structured atom, every molecule would be identical to every other similarly structured molecule, and so on
43. The positive proton is not actually positive at all: it only much more powerful than the negative electron because it is larger in size
44. Actually; the negative electron is much stronger than the accumulation of sub-atomic particles which make up a positive proton
45. looking at a single proton in the nucleus of a carbon atom
46. changed the charge of one of the protons, and the other proton “magically” changed its
47. After one to three minutes had passed after the ‘big’ bang’ and creation of the universe protons and neutrons began to react with each other to form deuterium, a heavy isotope of hydrogen with one proton and one neutron
48. This hydrogen then collected another neutron to form tritium and after this reaction the addition of another proton which produced a helium nucleus
49. In October 1955, Serge discovered a negative proton or antiproton
50. The common proton has an antimatter counterpart called the antiproton