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• Shell_theorem abstract "In classical mechanics, the shell theorem gives gravitational simplifications that can be applied to objects inside or outside a spherically symmetrical body. This theorem has particular application to astronomy.Isaac Newton proved the shell theorem saying that: A spherically symmetric body affects external objects gravitationally as though all of its mass were concentrated at a point at its centre. If the body is a spherically symmetric shell (i.e., a hollow ball), no net gravitational force is exerted by the shell on any object inside, regardless of the object's location within the shell.A corollary is that inside a solid sphere of constant density the gravitational force varies linearly with distance from the centre, becoming zero by symmetry at the centre of mass.This is easy to see: take a point within such a sphere, at a distance from the centre of the sphere, then you can ignore all the shells of greater radius by the shell theorem. So, the remaining mass m is proportional to , and the gravitational force exerted on it is proportional to , so to , so is linear in .These results were important to Newton's analysis of planetary motion; they are not immediately obvious, but they can be proven with calculus. (Alternatively, Gauss's law for gravity offers a much simpler way to prove the same results.)In addition to gravity, the shell theorem can also be used to describe the electric field generated by a static spherically symmetric charge density, or similarly for any other phenomenon that follows an inverse square law. The derivations below focus on gravity, but the results can easily be generalized to the electrostatic force.".
• Shell_theorem thumbnail Shell-diag-1.png?width=300.
• Shell_theorem wikiPageID "2025989".
• Shell_theorem wikiPageRevisionID "595053883".
• Shell_theorem hasPhotoCollection Shell_theorem.
• Shell_theorem subject Category:Gravitation.
• Shell_theorem subject Category:Mathematical_theorems.
• Shell_theorem subject Category:Physics_theorems.
• Shell_theorem type Abstraction100002137.
• Shell_theorem type Communication100033020.
• Shell_theorem type MathematicalTheorems.
• Shell_theorem type Message106598915.
• Shell_theorem type PhysicsTheorems.
• Shell_theorem type Proposition106750804.
• Shell_theorem type Statement106722453.
• Shell_theorem type Theorem106752293.
• Shell_theorem comment "In classical mechanics, the shell theorem gives gravitational simplifications that can be applied to objects inside or outside a spherically symmetrical body. This theorem has particular application to astronomy.Isaac Newton proved the shell theorem saying that: A spherically symmetric body affects external objects gravitationally as though all of its mass were concentrated at a point at its centre.".
• Shell_theorem label "Bolschilstelling".
• Shell_theorem label "Shell theorem".
• Shell_theorem label "Teorema das cascas esféricas".
• Shell_theorem label "Teorema del guscio sferico".
• Shell_theorem label "Théorèmes de Newton".
• Shell_theorem sameAs Théorèmes_de_Newton.
• Shell_theorem sameAs Teorema_del_guscio_sferico.
• Shell_theorem sameAs Bolschilstelling.
• Shell_theorem sameAs Teorema_das_cascas_esféricas.
• Shell_theorem sameAs m.06g21s.
• Shell_theorem sameAs Q2222575.
• Shell_theorem sameAs Q2222575.
• Shell_theorem sameAs Shell_theorem.
• Shell_theorem wasDerivedFrom Shell_theorem?oldid=595053883.
• Shell_theorem depiction Shell-diag-1.png.
• Shell_theorem isPrimaryTopicOf Shell_theorem.