Difference between revisions of "Forest UCM Energy CentralForce"
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| Line 23: | Line 23: | ||
In the aximuthal angle direction | In the aximuthal angle direction | ||
| − | : <math>r \sin \phi d \phi</math> | + | : <math>r \sin \phi d \phi \hat \phi</math> |
The differential force of the displacement vector in spherical coordinates is | The differential force of the displacement vector in spherical coordinates is | ||
| − | : <math>d \vec r = r dr \hat r + r d \theta \hat \theta + r \sin \phi d \phi</math> | + | : <math>d \vec r = r dr \hat r + r d \theta \hat \theta + r \sin \phi d \phi \hat \phi</math> |
==Gradient in spherical coordinates== | ==Gradient in spherical coordinates== | ||
Revision as of 12:32, 27 September 2014
A central force is defined as a force depends only on separation distance
ie
Coulomb force and gravitation force.
Spherical Coordinates
Forest_UCM_NLM_Ch1_CoordSys#Spherical
The differential change of in spherical coordinates occurs in three directions.
In the radial direction
In the polar angle direction
In the aximuthal angle direction
The differential force of the displacement vector in spherical coordinates is