up, down, top
To make a proton, which has a charge of +1, you would need two up quarks (each with a charge of +2/3) and one down quark (with a charge of -1/3) since the total charge of a proton is the sum of the charges of its constituent quarks.
Up, Charm and Top Quarks have a charge of (2/3)e Down, Strange and Bottom Quarks have a charge of (-1/3)e Where e is the charge of the electron.
The Top, Charm, and Up quarks have +2/3 of an 'elementary' charge. The Bottom, Strange, and Down quarks have -1/3 of an 'elementary' charge.
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.
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.
There are 3 up quarks in a helium nucleus.
To make a proton, which has a charge of +1, you would need two up quarks (each with a charge of +2/3) and one down quark (with a charge of -1/3) since the total charge of a proton is the sum of the charges of its constituent quarks.
Hadrons are composed of 3 quarks. Protons and neutrons are hadrons. The 2 types of quarks used in this instance are up quarks and down quarks. Yes, there are quarks in a nucleus.
Up, Charm and Top Quarks have a charge of (2/3)e Down, Strange and Bottom Quarks have a charge of (-1/3)e Where e is the charge of the electron.
The Top, Charm, and Up quarks have +2/3 of an 'elementary' charge. The Bottom, Strange, and Down quarks have -1/3 of an 'elementary' charge.
Yes, protons are composed of three quarks - two "up" quarks and one "down" quark. The up quarks have a positive charge of +2/3 each, and the down quark has a negative charge of -1/3, resulting in a net charge of +1 for the proton.
The count of quarks in an atom of molybdenum would depend on the nuclide's mass number (A), or in other words, on which isotope. 3 * A = (quark count) since both neutrons and protons have 3 quarks each. The lowest we know about (Mo-83) would have 249 quarks, the highest (Mo-115) would have 345. Molybdenum-98 is the commonest isotope with (3 * 98) quarks.
Yes, quarks carry a charge. They carry a charge of either +2/3 or -1/3 depending on which quark we consider.
They are Quarks. A Proton Consits of 3 Quarks, comprising of 2 "Up" Quarks and 1 "Down" Quark. "Up" Quarks have a charge of 2/3, and "Down" Quarks have a charge of -1/3, hence the charge on a proton on +1. Similarly a Neutron Consists on 3 Quarks, 1 "Up" and 2 "Down" hence 0 charge.
A protons is a positively charged hadron made up of two up quarks and one down quark. Since up quarks have a +2/3 charge and down quarks have a -1/3 charge, they add up to +3/3, or simply put, positively charged.
3 in each
Fluorine has nine protons in its nucleus, which means it has nine electrons surrounding it to maintain a neutral charge. Each proton and neutron is made up of three quarks, so fluorine would have a total of 27 quarks in its nucleus (3 quarks per proton/neutron x 9 protons = 27 quarks).