quarks possess charge which is fraction on the charge possessed by electron 1/3e and 2/3e even then we say that the quantum of charge is e why
Answers
Answer:
An electric charge creates a field whose energy density everywhere is proportional to the corresponding field intensity in the square. It would be strange if a charge was the reason for the existence of energy and it did not have energy. However, if the charge had energy, it could be regarded as a mass that is not invariant to Lorentz transformations. On the other hand, according to the theory of relativity, e (the charge of the electron) is invariant to the Lorentz transformations.
What is the correct?
The first is compatible to a unified field theory (charge-matter has the same nature with field); this permits the violation of the conservation principles.
The second is compatible to the main stream point of view; this does not permit the violation of the conservation principles.
Answer:
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Explanation:
°° To lose quark, energy in MeV is °°
- Single quark is unstable
- Electrons, neutrons and protons are found to be made up of quarks but, we have, not yet got any evidence of existence of single quarks.Quarks are always found in group such that there charge becomes integral multiple of e
- and therefore, and to break electron into quark a very high energy is required which is in terms of MeV. therefore, option(C),(D)