fictitious equations
1Fictitious force — Classical mechanics Newton s Second Law History of classical mechanics  …
2Equations of motion — Classical mechanics Newton s Second Law History of classical mechanics  …
3Newton–Euler equations — The Newton–Euler equations describe the combined translational and rotational dynamics of a rigid body.[1][2] [3][4][5] With respect to a coordinate frame whose origin coincides with the body s center of mass, they can be expressed in matrix form …
4Numerical partial differential equations — is the branch of numerical analysis that studies the numerical solution of partial differential equations (PDEs). Numerical techniques for solving PDEs include the following: The finite difference method, in which functions are represented by… …
5Mechanics of planar particle motion — Classical mechanics Newton s Second Law History of classical mechanics  …
6Centrifugal force (planar motion) — In classical mechanics, centrifugal force (from Latin centrum center and fugere to flee ) is one of the three so called inertial forces or fictitious forces that enter the equations of motion when Newton s laws are formulated in a non inertial… …
7Lorentz ether theory — What is now called Lorentz Ether theory ( LET ) has its roots in Hendrik Lorentz s Theory of electrons , which was the final point in the development of the classical aether theories at the end of the 19th and at the beginning of the 20th century …
8Centrifugal force — Not to be confused with Centripetal force. Classical mechanics Newton s Second Law …
9Coriolis effect — For the psychophysical perception effect, see Coriolis effect (perception). Classical mechanics Newton s Second Law …
10Centrifugal force (rotating reference frame) — This article is about the fictitious force related to rotating reference frames. For other uses, see Centrifugal force. Classical mechanics …
