There are several isotopes of iron, the most frequent is Fe56 (92 percent). Suggest you look up Wikipedia for Iron. I do not understand your use of word 'resonante'. If you mean 'resonate' I still don't understand what your query really is.
No there are 7
Differences between uranium isotopes: natural isotopes (U-234, U-235, U-238) and the artificial isotopes; differences in atomic mass; differences in the number of neutrons; differences of the half life; differences in the emitted radiations (type, energy, percentage); differences in the decay chain; differences in the technological importance; etc.
because it's an average of various isotopes, in proportion in which they exist in nature
There are 4 stable diifferent atoms of iron (isotopes), all having 26 protons. (The atomic number of iron is 26)These isotopes differ in atomic mass, ranging from 54, 56, 57 and 58.Isotope Fe(56) is the most abundant in nature: 92%Number of neutrons = Atomic mass of an isotope - atomic number of the isotopeSo the answer is: 28, 30, 31 and 32 neutronsrespectively
Isotopes. They differ in the number of neutrons in the nucleus.
Iron is an element, and there is only one element called iron (Fe). There are no iron element(s), but if you mean isotopes, then some iron isotopes are stable, and some aren't. No known element is stable in of it's isotopes.
No there are 7
Differences between uranium isotopes: natural isotopes (U-234, U-235, U-238) and the artificial isotopes; differences in atomic mass; differences in the number of neutrons; differences of the half life; differences in the emitted radiations (type, energy, percentage); differences in the decay chain; differences in the technological importance; etc.
Iron atoms. Fe is the symbol for iron on the table of elements.
Iron has 26 protons.Iron 55.847 is not an element. Iron exists in the form of the following isotopes: 56Fe, 54Fe, 57Fe and 58Fe. Iron 55.847 refers to the average atomic mass of these isotopes, weighted together according to their relative abundance on earth. 56Fe accounts for approx 92% of the total.
Nickel, and rare isotopes of Iron
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".
the same number of both proton and neutron
Iron-55 and iron-59 are used to study the way in which red blood cells develop in the body. These studies can be used to tell if a person's blood is healthy.
For all engineering purposes density of iron is generally taken as 7850kg/m3 though pure iron may weigh 7874 kg/m3 as mentioned in Clarke Table of isotopes.
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The fustion will take place so long as the decay time for isotopes which is ...not stable is over.