No it can't. There has to an equal amount of electrons as protons! This atom can't exist.
Tin, Sn, atom no. 50, has 50 protons in its nucleus.
If its a neutral atom, there will be the same number of protons as electrons. The atomic number will tell you how many protons there are, so there are 50 protons and 50 electrons.The mass number is the sum of the number of protons (or electrons in a neutral atom) and the number of neutrons. Since we know there are 50 protons, we subtract 125 with 50 to get 75 neutrons.
Tin's atomic number is 50. Thus, it has 50 protons per atom. The atom with 51 protons is antimony.
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.
An atom with atomic number 50 contains 50 protons. The mass number of 125 indicates the total number of protons and neutrons combined, so subtracting the number of protons (50) from the mass number gives 75 neutrons.
There are 50 electrons. In a neutral atom, the number of electrons equals the number of protons.
Protons = Atomic Number = 50 Neutrons = Atomic Mass - Atomic Number = 125 - 50 = 75
The atomic number 50 corresponds to the element tin, or Sn.The atomic number tells you the number of protons, which is 50 protons.The mass number is equal to the number of protons + the number of neutrons.So 55 - 50 = 5 neutronsAnd a neutral atom has exactly the same number of protons as electrons, so it has 50 electrons.
if you want a neutral atom of tin, you would need 50 electrons, because there are 50 protons. you can also conclude this because tin's atomic number is 50. the atomic number always equals the number of protons, and the number of protons always equals the amount of electrons.
Remember: p+ + n = m => n = m - p+ AND e- = p+p = number of protons = atomic numbern = number of neutronsm = mass number = (by definition) number of protons + number of neutronse- = electrons, valuable only for (neutral) atomic elementsAnswer:n = m - p+ = 120-50 = 70 neutrons in 50Sn(70), the most common isotope of tin (33%)e- = p+ = 50 = 50 protons and 50 electrons in 50Sn(70), tin, metal element in group 14.
The isotope of tin-120 has 70 neutrons in its nucleus. Tin, element 50 on the periodic table, typically has 50 protons. By subtracting the atomic number (protons) from the atomic mass (protons + neutrons), we can determine the number of neutrons.
An element with 68-neutrons (n) and 50-protons (p) would have a mass number of 118-atomic mass units (amu). Amu equals the sum of the proton and neutron numbers for any element. In this case atomic number 50 also signifies that it is an atom of tin (Sn).