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- Neutron–proton_ratio abstract "The neutron–proton ratio (N/Z ratio or nuclear ratio) of an atomic nucleus is the ratio of its number of neutrons to its number of protons. The ratio generally increases with increasing atomic numbers due to increasing nuclear charge due to repulsive forces of protons. Light elements, up to calcium (Z = 20), have stable isotopes with N/Z ratio of one except for beryllium (N/Z ratio = 1.25), and every element with odd proton numbers from fluorine to potassium. Hydrogen-1 (N/Z ratio = 0) and helium-3 (N/Z ratio = 0.5) are the only stable isotopes with neutron–proton ratio under one. Uranium-238 and plutonium-244 have the highest N/Z ratios of any primordial nuclide at 1.587 and 1.596, respectively, while lead-208 has the highest N/Z ratio of any known stable isotope at 1.537.".
- Neutron–proton_ratio thumbnail Isotopes_and_half-life.svg?width=300.
- Neutron–proton_ratio wikiPageID "38919712".
- Neutron–proton_ratio wikiPageLength "1298".
- Neutron–proton_ratio wikiPageOutDegree "20".
- Neutron–proton_ratio wikiPageRevisionID "661114891".
- Neutron–proton_ratio wikiPageWikiLink Atomic_nucleus.
- Neutron–proton_ratio wikiPageWikiLink Beryllium.
- Neutron–proton_ratio wikiPageWikiLink Calcium.
- Neutron–proton_ratio wikiPageWikiLink Category:Nuclear_physics.
- Neutron–proton_ratio wikiPageWikiLink Effective_nuclear_charge.
- Neutron–proton_ratio wikiPageWikiLink Fluorine.
- Neutron–proton_ratio wikiPageWikiLink Helium-3.
- Neutron–proton_ratio wikiPageWikiLink Hydrogen-1.
- Neutron–proton_ratio wikiPageWikiLink Isotope.
- Neutron–proton_ratio wikiPageWikiLink Isotopes_of_hydrogen.
- Neutron–proton_ratio wikiPageWikiLink Isotopes_of_lead.
- Neutron–proton_ratio wikiPageWikiLink Lead-208.
- Neutron–proton_ratio wikiPageWikiLink Neutron.
- Neutron–proton_ratio wikiPageWikiLink Nuclear_charge.
- Neutron–proton_ratio wikiPageWikiLink Nuclear_drip_line.
- Neutron–proton_ratio wikiPageWikiLink Nuclear_fission.
- Neutron–proton_ratio wikiPageWikiLink Plutonium-244.
- Neutron–proton_ratio wikiPageWikiLink Potassium.
- Neutron–proton_ratio wikiPageWikiLink Primordial_nuclide.
- Neutron–proton_ratio wikiPageWikiLink Proton.
- Neutron–proton_ratio wikiPageWikiLink Ratio.
- Neutron–proton_ratio wikiPageWikiLink Uranium-238.
- Neutron–proton_ratio wikiPageWikiLink File:Isotopes_and_half-life.svg.
- Neutron–proton_ratio wikiPageWikiLinkText "Neutron–proton ratio".
- Neutron–proton_ratio wikiPageWikiLinkText "neutron–proton ratio".
- Neutron–proton_ratio hasPhotoCollection Neutron–proton_ratio.
- Neutron–proton_ratio wikiPageUsesTemplate Template:Nuclear_physics.
- Neutron–proton_ratio wikiPageUsesTemplate Template:Physics-stub.
- Neutron–proton_ratio subject Category:Nuclear_physics.
- Neutron–proton_ratio comment "The neutron–proton ratio (N/Z ratio or nuclear ratio) of an atomic nucleus is the ratio of its number of neutrons to its number of protons. The ratio generally increases with increasing atomic numbers due to increasing nuclear charge due to repulsive forces of protons. Light elements, up to calcium (Z = 20), have stable isotopes with N/Z ratio of one except for beryllium (N/Z ratio = 1.25), and every element with odd proton numbers from fluorine to potassium.".
- Neutron–proton_ratio label "Neutron–proton ratio".
- Neutron–proton_ratio sameAs نسبت_نوترون–پروتون.
- Neutron–proton_ratio sameAs m.0s8v53z.
- Neutron–proton_ratio sameAs Q15410640.
- Neutron–proton_ratio sameAs Q15410640.
- Neutron–proton_ratio wasDerivedFrom Neutron–proton_ratio?oldid=661114891.
- Neutron–proton_ratio depiction Isotopes_and_half-life.svg.
- Neutron–proton_ratio isPrimaryTopicOf Neutron–proton_ratio.