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Studies concerning Nucleonic Spin Pairing
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In the matter of nuclear structure the dominant phenomenon is the spin pairing of nucleons,
Below are found the studies which investigate this phenomenon.
- The Evidence for the
Formation of Nucleon Spin Pairs in Nuclei
- The Estimation of the
Enhancement of Binding Energy Due to the Formation of Nucleonic Pairs
- The Division of the
Binding Energy of the Helium 3 Nuclide Between That Due to the Strong Force
and That Due to Nucleon Spin Pair Formation
- The Division of the
Binding Energy of the Triteron Between That Due to the Strong Force and That
Due to Nucleon Spin Pair Formation
- A Revision of the
Estimates of the Parameters of the Nuclear Force Formula based upon the
Difference in the Nucleonic Charge of the Neutron Compared to the Proton With
the Results Applied to the Estimation of the Binding Energy of the formation
of a Neutron-Proton Spin Pair
- The Estimation of the
Enhancement of Binding Energy Due to the Formation of a Neutron-Proton Pair
- The Division of the
Binding Energy of the Alpha Particle, the Helium 4 Nuclide, Between That Due
to the Strong Force and That Due to Nucleon Spin Pair Formation
- An Estimation and
Analysis of the Binding Energy Involved in the Formation of Neutron-Neutron
Spin Pairs
- The Binding Energy
Due to the Formation of a Neutron-Proton Spin Pair
- The Relative Sizes
of the Binding Energies Due to the Formation of Neutron-Neutron and
Proton-Proton Spin Pairs
- The Relative Sizes
of the Binding Energies Due to the Formation of the Three Types of Spin Pairs
and the Strong Force Interactions
- A Proposition Concerning the Second Differences
of the Binding Energies of Neutron and Proton Spin Pairs:
That They Are Equal to the Interaction Energy of the Last Particles of Each Type with the Next-to-Last Particle
of the Same Type
- A Proposition Concerning the Cross Differences
of the Binding Energies of Neutron and Proton Spin Pairs:
That They Are Equal to the Interaction Energy of the Last Particles of Each Type with Each Other
- The Correspondence of the Two Types of
Estimates of the Binding Energy
Due to the Formation of Neutron-Proton Spin Pairs
- The Energetics of Neutron-Proton Spin Pair
Formation as a Function of the Number of Protons in the Nuclide
- The Energetics of Neutron-Proton Spin Pair
Formation as a Function of the Number of Neutrons in the Nuclide
- The Binding Energies Due to the Formation of Neutron-Neutron Spin Pairs
and Proton-Proton Spin Pairs
- The Distribution of the Enhancements to Binding Energy Due to the Formation
of Neutron-Neutron Spin Pairs and Neutron-Proton Spin Pairs
- The Relative Magnitudes of the Binding Energies Involved in the Formations
of Neutron-Proton
and Proton-Proton Spin Pairs
- The Relative Magnitudes of the Binding Energies Involved in the Formations
of Neutron-Proton
and Neutron-Neutron Spin Pairs
- The Separation of the Components of Nuclear Binding Energies
- The Determination of the Binding Energies Associated with Spin Pair
Formations
- The Significance of the Nonexistence of Neutron and Proton Spin Pairs
Outside of Nucleis
- The Evidence for the Formation of Neutron-Proton Spin Pairs
- The Evidence for the Formation of Proton-Proton Spin Pairs
- The Evidence for the Formation of Neutron-Neutron Spin Pairs
- Attraction and Repulsion in Nuclides Composed Entirely of Alpha Modules and Neutron Spin Pairs
- A Comparison of the Incremental Binding Energies of Alpha Modules in Alpha Nuclides and Nuclides Which Are
Made Up of Alpha Modules and One Neutron Spin Pair
- The Testing of the Alpha Module Model of Nuclear Structure on the Nuclides Composed Entirely of Alpha Modules
and One Neutron Spin Pair
- The Binding Energies Due to the Interaction
of Neutron Spin Pairs with Other Neutron Spin Pairs
- The Binding Energies Due to the Interaction
of Proton Spin Pairs with Other Proton Spin Pairs
- The Estimation of the Nucleonic Charge of a Neutron Relative to that of a Proton Using Data Based on
Nuclei made up of Alpha Modules and Neutron Spin Pairs Starting with the Incremental Binding Energies of Alpha Modules
- The Incremental Binding Energies Due to the Interactions of Alpha Modules and Neutron Spin Pairs
- The Incremental Binding Energy Relationships Among Nuclides Consisting of only Alpha Modules and Proton Spin Pairs
- The Estimation of the Nucleonic Charge of a Neutron Relative to that of a Proton Using Data Based on
Nuclei made up of Alpha Modules and Neutron Spin Pairs Starting with the Incremental Binding Energies of Neutron Spin Pairs
- The Binding Energie Associated with the Addition
of a Neutron-Neutron and Proton-Proton Spin Pair to the Alpha Nuclei
- The Binding Energy Associated with the Addition of a Neutron-Proton Spin Pair to the Alpha Nuclei
- The Statistical Explanation of the Binding Energies of Nuclides in terms of
their Pair Formations and the Interactions of their Nucleons through the
Strong Force and Taking into Account Heteroskedasticity
- The Statistical Explanation of the Binding Energies of Nuclides in terms of
their Pair Formations and the Interactions of their Nucleons through the
Strong Force
- A Comparison of the Binding Energies Due to the Formation of the Three Types
of Nucleon Spin Pairs
- The Evidence for the Formation of Proton Spin Pairs Within Nuclei
- The Evidence for the Formation of Neutron Spin Pairs Within Nuclei
- The Statistical Explanation of the Incremental Binding Energies of Neutron Spin Pairs
- The Statistical Explanation of the Incremental Binding Energies of Proton Spin Pairs
- The Binding Energy of Nuclei Due to the Interaction of Proton Pairs
- The Binding Energy of Nuclei Due to the Interaction of Neutron Pairs
- A Preliminary Analysis of the Binding Energy of Nuclei Due to the Interaction of Neutron Pairs
- The Existence of a Magnetism-like Force Associated with the Motion of Any Charged Particles
- The Analogue of the Magnetic Field for the Nucleonic Force Field
- The Spin Pairing of Nucleons Due to the Magnetic Fields Generated by their Spinnings
- The Derivation of the Magnetic Field Associated with a Spinning Spherical Surface of Charge
- A Plausible Connection between the Binding Energy of a Composite Object and the
Potential Energy Lost Upon its Formation
- The Separation Distance In Spin Pairs of Like-Nucleons