A proton is a fermion with two up quarks and one down quark. The proton is a carrier particle, that carries electromagnetic energy.
Answer2: The Neutron is a neutral charged particle of one up quark and two down quarks, (udd). The Photon is a charged particle with 13 up quarks and 1 down quark, (13ud). The Photon is related to Planck's Constant h= zQ2 and the vacuum impedance z = Wb/Q.
Q= square-root(h/z) = 4/3 E-18 Coulombs = 8 1/3 electrons = (13ud)
A proton is a positively charged subatomic particle that exists within the nucleus of an atom. A photon is described as a 'particle of light', but is defined as a specific amount of electromagnetic radiation energy equal to Planck's constant times the frequency of light. A photon is necessary to describe photoelectric effect while still assuming the wave nature of light. To calculate the energy of a photon you use the equation E=hf. Where h is Planck's Constant 6.63 x 10-34, and f is the frequency of light (usually in units of Hz or 1/s).
The energy of the photon is the same as the energy lost by the electron
an electron
yep
1 proton and ~2 amu's
emits radio wave photon.
The photon is the quanta of electromagnetic radiation (e.g. radio, light, x-rays, gamma rays). Quanta are the smallest units of something allowed.
Neutron is a neutral particle present within the nucleus of an atom. Proton is a positively charged particle present within the nucleus of an atom. Photons are particles of light.
tata photon plus is ratan tata and Javed Siddiqui is houner of PHoton whiz..............
mass of the proton is 0. Answer 2 But the question asked about photons, not protons. The mass of a photon is also 0, though the mass of a proton is not!
As there are no technical specs for either, one cannot be certain. However, an interesting point is that while proton torpedoes are carried by fighters, photon torpedoes are carried by ships as much as 100 times bigger.
an electron
yep
The energy of the photon is the same as the energy lost by the electron
The proton has a +1 charge, while a neutron has no charge, and is neutral.
The wavelength of the detected signal.
what is difference between inhibitor and antagonist
Wavelength Frequency and Photon Energy