A neutron has 3 valence quarks. An up quark, and two down quarks. An up quark has a charge of 2/3 and a down quark has a charge of -1/3.
Since 2/3 - 1/3 - 1/3 = 0, neutrons have a neutral charge.
Besides valence quarks, supposedly a hadron can contain an infinite sea of quarks that don't affect the properties of the hadron.
A neutron has 3 valence quarks. An up quark, and two down quarks. An up quark has a charge of 2/3 and a down quark has a charge of -1/3.
Since 2/3 - 1/3 - 1/3 = 0, neutrons have a neutral charge.
Besides valence quarks, supposedly a hadron can contain an infinite sea of quarks that don't affect the properties of the hadron.
It would depend on which atom and isotope it is.
Both protons and neutrons are composed of threequarks.
A neutron is the combination of 2 down and one up quark.
A neutron is 1 neutron, there are no more inside it.
A neutron contains 2 down quarks and an up quark.
The mass of a neutron is, 1.66 X 10 -27 kilograms, so...,
1 kilogram (# neutrons/1.66 X 10 -27 kg)
= 6.024 X 1026 neutrons in one kilogram
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3. One up quark and two down quarks.
A neutron has 1.008708 amus.
3
There are 3 generations of quarks; each generation having 2 different quarks within it. Thus, there are 3 X 2 = 6 types of quarks. Their names are up, down, strange, charm, top, and bottom. Each of these 6 quarks has a unique antiparticle associated with it. Thus, there are in fact 6 X 2 = 12 different quarks in total.
There are six types of quarks, with three "color charges" each. There are the up, the down, the charm, the strange, the top, and the bottom quarks, each with a "red" charge, a "blue" charge, or a "green" charge. If you want to count antimatter, then there are six antiquarks, each with "anticolor charges." The anticolors are Antigreen, antired, and antiblue. These are each represented by cyan, yellow, and magenta. So, counting antimatter and color charge, there are 36 quarks.
Each proton and neutron is made up of three quarks.
nuetron
The proton has two up (electrical charge +1/3) quarks and one down (electrical charge -1/3) quark.
There are 3 quarks in each neutron. There are 12 neutrons in each proton. There is 1 proton in each atom. There is 36 quarks in each atom. There are about 27 million atoms in each grain of sand. 36 x 27,000,000 = 972,000,000. There are 972 million quarks in a grain of sand.
Protons and neutrons, like all hadrons, are comprised of three quarks each.
3 each. A proton is composed of 2 up quarks and 1 down quark. A neutron is composed of 1 up quark and 2 down quarks.
For each isotope the number of neutrons is different. Number of neutrons = Mass number of an Tc isotope - 43
There are 3 generations of quarks; each generation having 2 different quarks within it. Thus, there are 3 X 2 = 6 types of quarks. Their names are up, down, strange, charm, top, and bottom. Each of these 6 quarks has a unique antiparticle associated with it. Thus, there are in fact 6 X 2 = 12 different quarks in total.
you can find a nuetron in the nucleus.
Each proton and neutron is made up of three quarks
Each proton and neutron is made up of three quarks.
there are 7 quarks in aluminum
James Chadwick discovered the nuetron.
There are six types of quarks, with three "color charges" each. There are the up, the down, the charm, the strange, the top, and the bottom quarks, each with a "red" charge, a "blue" charge, or a "green" charge. If you want to count antimatter, then there are six antiquarks, each with "anticolor charges." The anticolors are Antigreen, antired, and antiblue. These are each represented by cyan, yellow, and magenta. So, counting antimatter and color charge, there are 36 quarks.
The answer is GLUONS