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https://texercises.com/exercise/fission-vs-electric-potential/
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The following quantities appear in the problem: elektrische Ladung \(q, Q\) / Kraft \(F\) / Strecke \(s\) /
The following formulas must be used to solve the exercise: \(F = \frac{1}{4\pi\epsilon_0}\cdot \frac{q_1q_2}{r^2} \quad \)
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Exercise:
Asing a fission of isotopeU o two roughly equal fragments estimate the electric potential energy just as the fragments separate from each other. Ase that the fragments are spherical and compare your calculation to the nuclear fission energy released about pqMeV.

Solution:
If Uran- is split o two roughly equal fragments these fragments could be isotopePd. Each Palladium nucleus carries the charge qe. If we ase one nuclei to be one fermi i.e. one femtometer fmm in diameter the two isotopes are RR apart. The electric potential energy is therefore Epot W Fr ddr _R^infty fracq^piepsilon_ fracr^ mboxdr fracq^piepsilon_ left-fracrright_R^infty fracq^piepsilon_ fracR fracqtyq^pi nceps fracR E EMeV
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Exercise:
Asing a fission of isotopeU o two roughly equal fragments estimate the electric potential energy just as the fragments separate from each other. Ase that the fragments are spherical and compare your calculation to the nuclear fission energy released about pqMeV.

Solution:
If Uran- is split o two roughly equal fragments these fragments could be isotopePd. Each Palladium nucleus carries the charge qe. If we ase one nuclei to be one fermi i.e. one femtometer fmm in diameter the two isotopes are RR apart. The electric potential energy is therefore Epot W Fr ddr _R^infty fracq^piepsilon_ fracr^ mboxdr fracq^piepsilon_ left-fracrright_R^infty fracq^piepsilon_ fracR fracqtyq^pi nceps fracR E EMeV
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Tags
comparison, electric, element, fission, isotope, nuclear, nucleus., physics, potential, radioactivity, reaction
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(4, default)
Points
3 (default)
Language
ENG (English)
Type
Calculative / Quantity
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