Darwin–Radau equation
In astrophysics, the Darwin–Radau equation gives an approximate relation between the moment of inertia factor of a planetary body and its rotational speed and shape. The moment of inertia factor is directly related to the largest principal moment of inertia, C. It is assumed that the rotating body is in hydrostatic equilibrium and is an ellipsoid of revolution. The Darwin–Radau equation states where M and Re represent the mass and mean equatorial radius of the body. Here λ is the d'Alembert parameter and the Radau parameter η is defined as where q is the geodynamical constant For Earth, and
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Darwin–Radau equation
In astrophysics, the Darwin–Radau equation gives an approximate relation between the moment of inertia factor of a planetary body and its rotational speed and shape. The moment of inertia factor is directly related to the largest principal moment of inertia, C. It is assumed that the rotating body is in hydrostatic equilibrium and is an ellipsoid of revolution. The Darwin–Radau equation states where M and Re represent the mass and mean equatorial radius of the body. Here λ is the d'Alembert parameter and the Radau parameter η is defined as where q is the geodynamical constant For Earth, and
has abstract
In astrophysics, the Darwin–Ra ...... the measured value of 0.3307.
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في الفيزياء الفلكية, تعطي معاد ...... p تعني نصف القطر القطبي للأرض.
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708,494,961
comment
In astrophysics, the Darwin–Ra ...... amical constant For Earth, and
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في الفيزياء الفلكية, تعطي معاد ...... الهندسي geometrical flattening
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label
Darwin–Radau equation
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معادلة داروين-راداو
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