Why does iron (Fe) have the most stable nucleus? Which factors give this stability? Why are the elements with atomic numbers 25 or 27 not more stable than iron? - Quora
![Anders Sandberg on X: "Iron-56 (23 protons, 23 neutrons) has 8790.4 keV binding energy per particle. But iron-58 (25 neutrons) has 8792.3 and nickel-62 has 8794.5! So why isn't most iron iron-58 Anders Sandberg on X: "Iron-56 (23 protons, 23 neutrons) has 8790.4 keV binding energy per particle. But iron-58 (25 neutrons) has 8792.3 and nickel-62 has 8794.5! So why isn't most iron iron-58](https://pbs.twimg.com/media/EUJqe7OX0AAOgU9.jpg)
Anders Sandberg on X: "Iron-56 (23 protons, 23 neutrons) has 8790.4 keV binding energy per particle. But iron-58 (25 neutrons) has 8792.3 and nickel-62 has 8794.5! So why isn't most iron iron-58
![11920C T-1WB (Chemical Kinetics) Fe-56 is an extremely stable nuclide. Compute the binding energy per nucleon S(Fe and compare i with '2C. (Mass of Fe = 55.934939 amu ; mass of H-atom = 11920C T-1WB (Chemical Kinetics) Fe-56 is an extremely stable nuclide. Compute the binding energy per nucleon S(Fe and compare i with '2C. (Mass of Fe = 55.934939 amu ; mass of H-atom =](https://toppr-doubts-media.s3.amazonaws.com/images/4730475/93888951-7636-4d68-af4c-b445c694852b.jpg)
11920C T-1WB (Chemical Kinetics) Fe-56 is an extremely stable nuclide. Compute the binding energy per nucleon S(Fe and compare i with '2C. (Mass of Fe = 55.934939 amu ; mass of H-atom =
![Calculate binding energy ^{56}_{26}Fe nucleus [ Given: mass of ^{56}_{26}Fe = 55.9349 ,u, mass of neutron = 1.00867 ,u, mass of proton = 1.00783 ,u and 1 ,u = 931 ,MeV/c^2]. Calculate binding energy ^{56}_{26}Fe nucleus [ Given: mass of ^{56}_{26}Fe = 55.9349 ,u, mass of neutron = 1.00867 ,u, mass of proton = 1.00783 ,u and 1 ,u = 931 ,MeV/c^2].](https://haygot.s3.amazonaws.com/questions/1967916_1836808_ans_d3b297af78754fa693cc034fa3b7e105.jpg)
Calculate binding energy ^{56}_{26}Fe nucleus [ Given: mass of ^{56}_{26}Fe = 55.9349 ,u, mass of neutron = 1.00867 ,u, mass of proton = 1.00783 ,u and 1 ,u = 931 ,MeV/c^2].
![OneClass: Iron-56 (56Fe) has a binding energy per nucleon of 8.790 MeV. (1MeV is 1.602 × 10–13 J).... OneClass: Iron-56 (56Fe) has a binding energy per nucleon of 8.790 MeV. (1MeV is 1.602 × 10–13 J)....](https://prealliance-textbook-qa.oneclass.com/qa_images/homework_help/question/qa_images/112/11208061.png)
OneClass: Iron-56 (56Fe) has a binding energy per nucleon of 8.790 MeV. (1MeV is 1.602 × 10–13 J)....
![Calculate the binding energy and binding energy per nucleon of 26Fe raise to 56 nucleus. given, Mass of proton = 1.007825amu Mass of neutron = 1.008665amu Mass of Fe = 55.934932 amu - voecphoo Calculate the binding energy and binding energy per nucleon of 26Fe raise to 56 nucleus. given, Mass of proton = 1.007825amu Mass of neutron = 1.008665amu Mass of Fe = 55.934932 amu - voecphoo](https://images.topperlearning.com/topper/tinymce/imagemanager/files/8e4f9713ffe4771e3b0d620e8f6a021956e90e9d2c4d17.70411940UntitledQuery16.03.16.png)
Calculate the binding energy and binding energy per nucleon of 26Fe raise to 56 nucleus. given, Mass of proton = 1.007825amu Mass of neutron = 1.008665amu Mass of Fe = 55.934932 amu - voecphoo
![SOLVED: Iron-56, ⁵⁶₂₆Fe, has a binding energy per nucleon of 8.79 MeV. (1 MeV = 1.60 × 10⁻¹³ J). Determine the amount of energy needed to 'decompose' 1 mol of iron-56 nuclei into the individual nucleons. SOLVED: Iron-56, ⁵⁶₂₆Fe, has a binding energy per nucleon of 8.79 MeV. (1 MeV = 1.60 × 10⁻¹³ J). Determine the amount of energy needed to 'decompose' 1 mol of iron-56 nuclei into the individual nucleons.](https://cdn.numerade.com/ask_previews/72679f5b-7f4e-4fa7-8f26-e4ed98ed3ecc_large.jpg)
SOLVED: Iron-56, ⁵⁶₂₆Fe, has a binding energy per nucleon of 8.79 MeV. (1 MeV = 1.60 × 10⁻¹³ J). Determine the amount of energy needed to 'decompose' 1 mol of iron-56 nuclei into the individual nucleons.
![PPT - 13.1 Properties of nucleus 13.2 Binding energy and mass defect. PowerPoint Presentation - ID:5696677 PPT - 13.1 Properties of nucleus 13.2 Binding energy and mass defect. PowerPoint Presentation - ID:5696677](https://image3.slideserve.com/5696677/slide18-l.jpg)