Dynamic Deformation of Earth and Motion Effects Caused by Universe's Gravitational Field
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- FormatePub
- ISBN8223043553
- EAN9798223043553
- Date de parution13/07/2023
- Protection num.pas de protection
- Infos supplémentairesepub
- ÉditeurDraft2Digital
Résumé
Objects in the Universe are subject to the continued actions of forces (accelerations) because of rotation, translation, electromagnetic, and gravitational interactions with nearby and distant surrounding bodies. Under many circumstances, we may neglect external accelerations because they might be of low magnitude compared to local accelerations. But that doesn't mean that they don't exist. Moreover, subtle differences in acceleration are the cause of constant and dynamic deformation of masses and changes in motion that can't be ignored.
Is the deformation of the Earth static, dynamic, or both? Is the gravitational field the only cause of the deformation of the Earth? How do the masses of near celestial bodies impact locally? Does the mass of the universe contribute to local effects in order to be considered? How is the Earth's orbit modified by this force interchange? In this book, there are several cases that show with clarity what accelerations produce what effect and in what amount.
The differential equations of a force in space are derived for those of you who want to make heavy calculations.
Is the deformation of the Earth static, dynamic, or both? Is the gravitational field the only cause of the deformation of the Earth? How do the masses of near celestial bodies impact locally? Does the mass of the universe contribute to local effects in order to be considered? How is the Earth's orbit modified by this force interchange? In this book, there are several cases that show with clarity what accelerations produce what effect and in what amount.
The differential equations of a force in space are derived for those of you who want to make heavy calculations.
Objects in the Universe are subject to the continued actions of forces (accelerations) because of rotation, translation, electromagnetic, and gravitational interactions with nearby and distant surrounding bodies. Under many circumstances, we may neglect external accelerations because they might be of low magnitude compared to local accelerations. But that doesn't mean that they don't exist. Moreover, subtle differences in acceleration are the cause of constant and dynamic deformation of masses and changes in motion that can't be ignored.
Is the deformation of the Earth static, dynamic, or both? Is the gravitational field the only cause of the deformation of the Earth? How do the masses of near celestial bodies impact locally? Does the mass of the universe contribute to local effects in order to be considered? How is the Earth's orbit modified by this force interchange? In this book, there are several cases that show with clarity what accelerations produce what effect and in what amount.
The differential equations of a force in space are derived for those of you who want to make heavy calculations.
Is the deformation of the Earth static, dynamic, or both? Is the gravitational field the only cause of the deformation of the Earth? How do the masses of near celestial bodies impact locally? Does the mass of the universe contribute to local effects in order to be considered? How is the Earth's orbit modified by this force interchange? In this book, there are several cases that show with clarity what accelerations produce what effect and in what amount.
The differential equations of a force in space are derived for those of you who want to make heavy calculations.
