a quantum of light contains? a. neutron b. elecron c. proton d.notron e. none?

Answer 1

E) None. It is simply a quanta of energy.

Answer 2

E) none

its quantum is photon

Answer 3

e:none, because there is no known element thet is in light.

Answer 4

If those are the only 2 options, then circulate with dark matter. via definition, something it is made out of proton and/or neutrons is named baryonic matter (baryon ability "heavy": protons and neutrons are baryons). the only factor all of us know approximately dark matter is that it fairly is non-baryonic. Anti-matter is made out of anti-protons (they have detrimental fee) and anti-neutrons (i might have a not undemanding time telling them different than for "commonly used" neutrons). So, counting on how choosy you prefer to be approximately words, antimatter does not incorporate protons and neutrons yet in undemanding terms their anti-debris (yet it is being fairly choosy). ---- commonly used matter behaves in a definite way because of the fact of electric powered attraction and repulsion. as an occasion, atoms do not often touch one yet another. As one atom tactics yet another, the sector from the outer electrons will repel one yet another and the atoms won't certainly touch. even though if, if the strain is sufficient, they gets in touch and all electrons would be forced to their lowest available state, without room left everywhere interior the subject. Then we are saying that the subject is degenerate. If the subject remains made out of atoms (as in white dwarfs) we communicate of electron-degeneracy (the degenerate matter remains made out of protons, neutrons and electrons). If the strain is sufficient to force the electrons into the nucleus, they'll neutralise the protons and you finally end up with a degenerate ball of neutrons: not extra protons or electrons, yet nonetheless neutrons, consequently it remains baryonic matter (e.g., a neutron superstar).