Results 251 to 260 of about 11,737 (305)
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Atomic Nuclei: Moments of Inertia and Quadrupole Moments
Science, 1966Moments of inertia and quadrupole moments of deformed even-even nuclei were calculated in the closely packed spheron model.
exaly +3 more sources
Progress of Theoretical Physics, 1959
The problem of nuclear moments of inertia is considered taking into account the effect of the internal motion phenomenologically. The kinetic energy of the internal motion is assumed to take the form of that of a symmetrical top. When the interactions between the irrotational and the internal motions are strong, the total system has a rotational energy
Miyazima, Tatuoki, Wada, Yasushi
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The problem of nuclear moments of inertia is considered taking into account the effect of the internal motion phenomenologically. The kinetic energy of the internal motion is assumed to take the form of that of a symmetrical top. When the interactions between the irrotational and the internal motions are strong, the total system has a rotational energy
Miyazima, Tatuoki, Wada, Yasushi
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The neutron-proton pairing and the moments of inertia of the rare earth even-even nuclei
In this study, the possible effect of the neutron-proton pairing interaction in the heavy nuclei has been investigated in the framework of the BCS model by making a simple approximation.
Deniz, C. +2 more
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Moments of Inertia and Graph Separators
Journal of Combinatorial Optimization, 1997zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Keith D. Gremban +2 more
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Proceedings of the Physical Society. Section A, 1957
A formula proposed by the author for the calculation of the moment of inertia of a nuclear system is discussed. A simple calculation using the model of a deformed oscillator well for the mean nuclear potential gives the result MΣZ2 for a prolate distribution, approximately half the rigid moment; it is suggested that this result incorporates most of the
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A formula proposed by the author for the calculation of the moment of inertia of a nuclear system is discussed. A simple calculation using the model of a deformed oscillator well for the mean nuclear potential gives the result MΣZ2 for a prolate distribution, approximately half the rigid moment; it is suggested that this result incorporates most of the
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One Optimizing Method for Moments of Inertia Applied with Improved Adaptive Genetic Algorithm
In this paper, a new optimizing method for the moments of inertia of a mechanical structure was advanced. First, a new optimal model for the moments of inertia was advanced, which only involved with single objective and single variable, in order to ...
Xiang Dong
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On the Moments of Inertia of Nuclei
Proceedings of the Physical Society. Section A, 1957The variational method developed in the previous paper is applied to the calculation of nuclear moments of inertia using an anisotropic harmonic well and neglecting spin-orbit couplings. The inter-nucleon forces are assumed to have a Gaussian form, either with zero range or with a realistic range, and in the latter case either for ordinary (Wigner ...
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1977
In considering the kinetics of a rigid body we shall meet the quantity Σ(δm)r2 where δm is the mass of some particle at a perpendicular distance r from a particular axis. The summation symbol implies the addition of all the products indicated over the complete rigid body, and is termed the moment of inertia I with respect to the particular axis, which ...
J. H. Hughes, K. F. Martin
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In considering the kinetics of a rigid body we shall meet the quantity Σ(δm)r2 where δm is the mass of some particle at a perpendicular distance r from a particular axis. The summation symbol implies the addition of all the products indicated over the complete rigid body, and is termed the moment of inertia I with respect to the particular axis, which ...
J. H. Hughes, K. F. Martin
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2017
Designing spinning or rotating machines can be complex and generally requires a bit of calculus. However, we can look at some simplified cases and design a few pieces that can help you analyze the motion of spinning—or in the case of this chapter, rolling—objects.
Joan Horvath, Rich Cameron
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Designing spinning or rotating machines can be complex and generally requires a bit of calculus. However, we can look at some simplified cases and design a few pieces that can help you analyze the motion of spinning—or in the case of this chapter, rolling—objects.
Joan Horvath, Rich Cameron
openaire +1 more source

