Voltage induced by Coriolis force: a new sensing scheme for rotation velocity

TL;DR

This paper introduces a novel rotation velocity sensing method based on voltage induced by Coriolis force on charged particles between conductors, offering a new approach to rotation measurement.

Contribution

It presents a new sensing scheme utilizing Coriolis force-induced voltage for rotation velocity measurement, expanding the applications of non-inertial reference frame physics.

Findings

Existence of a stable voltage proportional to rotation velocity.

The voltage effect is similar to the Hall effect caused by Lorentz force.

Proposed scheme can measure rotation velocity using this voltage.

Abstract

We study the motion of the charged particles between a pair of conductor plates in the non-inertial reference frame. It is found that there exists a stable voltage between the two conductor plates, which is proportional to the rotation velocity of the non-inertial system. This effect is similar to the Hall effect as the result of the Lorenz force. As an application, we propose a rotation velocity measurement scheme based on this Coriolis force -induced effect.