Fictitious force

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For a rectilinear inertial frame a test particle in the absence of a force will remain in a constant velocity state in accordance with Newton's first law of motion

$\frac{d^2 x'^{\lambda }}{d\tau ^2 } = 0$

However in transforming to a noninertial or more generally curvalinear coordinate system the equation of motion for the test particle in the absence of a real force transforms into

$\frac{d^2 x^{\lambda }}{d\tau ^2 } + \Gamma ^{\lambda}_{\mu \nu} \frac{dx^{\mu }}{d\tau }\frac{dx^{\nu }}{d\tau}= 0$

Where $\Gamma ^{\lambda}_{\mu \nu}$ are the Christoffel symbols. An observer using such coordinates may interpret the test particle's motion with respect to these coordinates as described by it experiencing a force of

$f^{\lambda}_{Fict} = -m\Gamma ^{\lambda}_{\mu \nu} \frac{dx^{\mu }}{d\tau }\frac{dx^{\nu }}{d\tau}$

So that he may interpret the equation of motion as being the result of a force due to Newton's second law of motion as

$f^{\lambda}_{Fict} = m\frac{d^2 x^{\lambda }}{d\tau ^2 }$

This "force" is fictitious in that it can be transformed away by going to a rectilinear inertial frame, so it is called a fictitious force. It is also commonly referred to as an inertial force or force of affine connection. Commonly experienced examples of a fictitious force would be a centrifugal force or the corriolis force that a spinning observer will observe as acting on free falling test particles.

References

Relativity

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