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skyluke89
A baryon is a particle consisting of three quarks or three antiquarks.

In order to form a neutral baryon (such as the neutron, which has electric charge zero), we must have two quarks with charge [tex]- \frac{1}{3}e [/tex] (down, strange or bottom quark), and one quark with charge [tex]+ \frac{2}{3}e [/tex] (up, charm or top quark), so that the total charge will be zero:
[tex]- \frac{1}{3}e- \frac{1}{3}e+ \frac{2}{3}e =0[/tex]

A second possibility is to have a neutral baryon consisting of three antiquarks, of which two of them have charges [tex]+ \frac{1}{3}e [/tex] (anti-down, anti-strange or anti-bottom), and one of them has charge [tex]- \frac{2}{3}e [/tex] (anti-up, anti-charm or anti-top), so that the total charge is still zero:
[tex]+ \frac{1}{3}e+ \frac{1}{3}e- \frac{2}{3}e=0 [/tex]
snehashish65

The required combination of quarks to produce Baryon is either having two quarks with charge -1/3e and one with +2/3e, or having two quarks with +1/3e and one with -2/3e charge.

What is Baryon?

A baryon is a subatomic particle unlike a nucleon or hyperon, formed by some specific combination of quarks, having a mass equal to or greater than that of a proton.

A baryon is a particle consisting of three quarks or three antiquarks. In order to form a neutral baryon (such as the neutron, which has electric charge zero), we must have two quarks with charge -1/3e, and one quark with charge +2/3e, so that the total charge will be zero:

-1/3e -1/3e +2/3e = 0

A second possibility is to have a neutral baryon consisting of three antiquarks, of which two of them have charges +1/3e and one of them has a charge -2/3e, so that the total charge is still zero:

+1/3e + 1/3e - 2/3e = 0

Thus, we can conclude that the required combination of quarks to produce Baryon is either having two quarks with charge -1/3e and one with +2/3e, or having two quarks with +1/3e and one with -2/3e charge.

Learn more about the Baryon here:

https://brainly.com/question/24837365

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