Hydrogen-1 (protium):1 proton, 0 neutrons (stable)
Helium-2 (diproton): 2 protons, 0 neutrons (unstable - short half-life)
Helium-3: 2 protons, 1 neutron (stable)
Lithium-4: 3 protons, 1 neutron (unstable - extremely short half-life)
Lithium-5: 3 protons, 2 neutrons (unstable - extremely short half-life)
Beryllium-5: 4 protons, 1 neutron (mostly theoretical, unstable, extremely short half-life if formed)
Beryllium-5: 4 protons, 2 neutron (unstable - extremely short half-life)
Beryllium-5: 4 protons, 3 neutron (unstable - extremely short half-life)
Boron-6: 5 protons, 1 neutron (mostly theoretical, extremely short half-life if formed)
Boron-7: 5 protons, 2 neutron (unstable - extremely short half-life)
Boron-8: 5 protons, 3 neutron (unstable - short half-life)
Boron-9: 5 protons, 4 neutron (unstable - extremely short half-life)
Carbon-8: 6 protons, 2 neutrons (unstable - extremely short half-life)
Carbon-9: 6 protons, 3 neutrons (unstable - short half-life)
Carbon-10: 6 protons, 4 neutrons (unstable - short half-life)
Carbon-11: 6 protons, 5 neutrons (unstable - short half-life)
Nitrogen-10: 7 protons, 3 neutrons (unstable - extremely short half-life)
Nitrogen-11: 7 protons, 4 neutrons (unstable - extremely short half-life)
Nitrogen-12: 7 protons, 5 neutrons (unstable - short half-life)
Nitrogen-13: 7 protons, 6 neutrons (unstable - short half-life)
Oxygen-12: 8 protons, 4 neutrons (unstable - extremely short half-life)
Oxygen-13: 8 protons, 5 neutrons (unstable - extremely short half-life)
Oxygen-14: 8 protons, 6 neutrons (unstable - short half-life)
Oxygen-15: 8 protons, 7 neutrons (unstable - short half-life)
Fluorine-14: 9 protons, 5 neutrons (unstable - extremely short half-life)
Fluorine-15: 9 protons, 6 neutrons (unstable - extremely short half-life)
Fluorine-16: 9 protons, 7 neutrons (unstable - extremely short half-life)
Fluorine-17: 9 protons, 8 neutrons (unstable - short half-life)
Neon-16: 10 protons, 6 neutrons (unstable - extremely short half-life)
Neon-17: 10 protons, 7 neutrons (unstable - extremely short half-life)
Neon-18: 10 protons, 8 neutrons (unstable - short half-life)
Neon-19: 10 protons, 9 neutrons (unstable - short half-life)
... and the list goes on
There generally isn't a problem; the more protons an atom has, the more neutrons it takes to glue them together. A Helium atom has two protons and generally two neutrons; in every other stable atom, there are more neutrons than protons. There are isotopes of elements with fewer-than-normal numbers of neutrons; these isotopes are generally unstable and radioactive, and will generally decay into other elements.
According to Wikipedia neutral nitrogen has 7 protons, 7 neutrons, and 7 electrons. Nitrogen ions may have more or less electrons and other nitrogen isotopes may have more or fewer neutorns.
Isotopes.
An isotope is a variant of the atom with the same number of protons but more or fewer neutrons. The atomic mass is an average of the isotopes of the element. The average is weighted according to the relative abundance of such isotopes.
Nickel has 28 protons and electrons. The number of neutrons in nickel can vary, as it has multiple isotopes. Nickel has 4 electron shells, with electrons distributed as follows: 2 in the first shell, 8 in the second shell, 16 in the third shell, and 2 in the fourth shell.
The number of neutrons in the main isotopes of osmium and their abundance is116 (41%),114 (26%),113 (16%),112 (13%)There are three more isotopes with fewer protons and abundance below 5%.
There generally isn't a problem; the more protons an atom has, the more neutrons it takes to glue them together. A Helium atom has two protons and generally two neutrons; in every other stable atom, there are more neutrons than protons. There are isotopes of elements with fewer-than-normal numbers of neutrons; these isotopes are generally unstable and radioactive, and will generally decay into other elements.
Every element has a set number of protons. Always. Electrons are determined by the charge on the atom. If it is positive, it has fewer electrons than protons; if it is negative, it has more electrons than protons. Isotopes are atoms with different numbers of neutrons. So, neutral carbon-12 has 6 protons, 6 electrons, and 12 neutrons. Likewise, neutral carbon-14 has 6 protons, 6 electrons, and 14 neutrons. Carbon-12 and carbon-14 are isotopes
How many neutrons, not how much newtrons. Iron's atomic number is 26, so it has 26 protons; its atomic mass is approximately 56, which equals the number of protons and neutrons. 56 - 26 = 20 neutrons. While there are isotopes of iron with more or fewer neutrons, this is likely the answer you're expected to provide. If not, see Wikipedia "isotopes of iron".
According to Wikipedia neutral nitrogen has 7 protons, 7 neutrons, and 7 electrons. Nitrogen ions may have more or less electrons and other nitrogen isotopes may have more or fewer neutorns.
Isotopes.
They have the same number of protons in the nucleus and same number of electrons surrounding the nucleus.
79 protons, 118 neutrons, atomic mass;197.967
An isotope is a variant of the atom with the same number of protons but more or fewer neutrons. The atomic mass is an average of the isotopes of the element. The average is weighted according to the relative abundance of such isotopes.
Carbon 12 and carbon 14 are atoms of carbon, different isotopes of the element. Carbon owes its chemical identity, indeed, its elemental identity, to the number of protons in its nucleus. There are 6 of them. No more, no less. Carbon 12 has 6 protons and 6 neutrons. Carbon 14 has 6 protons and 8 neutrons. Carbon 14 has fewer protons than neutrons.
An atom of a certain element with a different number of neutrons compared with the common form of the element is called an isotope. Isotopes have the same number of protons and electrons in an atom, but a different number of neutrons (which means that they have a different atomic mass number).
The vast majority