Tin, Sn, atom no. 50, has 50 protons in its nucleus.
Tin has 50 protons and this number is not variable.
The number of protons in an atom's nucleus determines its chemical identity.
The number of protons in the atomic nucleus is equal to the atomic number of an element.
The number of protons in the nucleus of an atom.
There are 47 protons in Silver's atomic nucleus. The number of protons is the same as the atomic mumber.
The atomic number of tin is 50 and the atomic number of lead is 82. The atomic number tells the number of protons in the nucleus, so lead has more protons.
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Tin has 50 protons and this number is not variable.
The number of protons in an atom's nucleus is the Atomic number.
Is the number of protons in an atom determines its atomic number
The number of protons in an atom's nucleus determines its chemical identity.
The number of protons in a nucleus depends on which element it is. ( The number of protons is the decider as to which element it is. ) The number of electrons in an atom is the same as the number of protons in the nucleus, but none of the electrons are in the nucleus. Rather, they orbit around the nucleus like planets round a star.
The number of protons in the atomic nucleus is equal to atomic number.
The number of protons in the atomic nucleus is equal to the atomic number of an element.
Lead has more protons. Lead contains 82 protons, while tin only contains 50.
Every atom of tin has 50 protons in its nucleus. And there will be 50 electrons around a neutral atom of tin. The number of neutrons varies because there are different isotopes of tin. Tin is interesting in that it is the element with the greatest number of stable isotopes of all the elements in the periodic table. It has 10 stable isotopes, and they are tin-112 (62 neutrons), tin-114 (64 neutrons), tin-115 (65 neutrons), tin-116 (66 neutrons), tin-117, (67 neutrons), tin-118, (68 neurtons), tin-119, (69 neutrons), tin-120 (70 neutrons), tin-122 (72 neutrons), and tin-124 (74 neutrons). There are other isotopes of tin ranging from tin-99 to tin-137, and the neutron count in any one of them can be found by subtracting the atomic number of tin (which is 50, or the number of protons in the nucleus), from the mass number of the isotop. For instance, if we are interested in tin-121, it has 121 minus 50 or 71 neutrons in it. You'll find links below for more information.
The number of protons in the nucleus is the same as the atomic number.