(generate image for illustration only)
Motional EMF is generated when a conductor moves through a magnetic field. The magnetic component of the Lorentz force, [latex]\mathbf{F} = q(\mathbf{v} \times \mathbf{B})[/latex], acts on the charge carriers within the conductor, causing them to move and create a charge separation. This separation establishes an electric field and a potential difference. The resulting EMF is given by the line integral [latex]\mathcal{E} = \oint (\mathbf{v} \times \mathbf{B}) \cdot d\mathbf{l}[/latex].
Motional EMF is a direct consequence of the Lorentz force acting on mobile charges inside a conductor that is moving relative to a magnetic field. As the conductor moves with velocity [latex]\mathbf{v}[/latex] through a magnetic field [latex]\mathbf{B}[/latex], the free charges (electrons) within it experience a magnetic force [latex]\mathbf{F}_m = q(\mathbf{v} \times \mathbf{B})[/latex]. This force is perpendicular to both the velocity and the magnetic field, causing the charges to accumulate at one end of the conductor, leaving the other end with a net positive charge. This charge separation creates an internal electrostatic field [latex]\mathbf{E}_e[/latex] that opposes the further migration of charges. Equilibrium is reached when the electrostatic force [latex]\mathbf{F}_e = q\mathbf{E}_e[/latex] exactly balances the magnetic force, i.e., [latex]q\mathbf{E}_e = -q(\mathbf{v} \times \mathbf{B})[/latex].
The effective electric field experienced by the charges, [latex]\mathbf{E}_{eff} = \mathbf{v} \times \mathbf{B}[/latex], is a non-conservative field that drives the current. The EMF is the work done per unit charge by this effective field integrated along the length of the conductor. For a straight wire of length [latex]L[/latex] moving perpendicular to a uniform field [latex]B[/latex], the EMF simplifies to [latex]\mathcal{E} = BLv[/latex]. While motional EMF can be seen as a specific case of Faraday’s law of induction (in terms of changing flux), the Lorentz force perspective provides a more microscopic explanation of the mechanism responsible for the charge separation and the resulting voltage.
DISPONIBILE PER NUOVE SFIDE
Ingegnere meccanico, responsabile di progetto, ingegneria di processo o ricerca e sviluppo
Disponibile per una nuova sfida con breve preavviso.
Contattami su LinkedIn
Integrazione di componenti elettronici in plastica e metallo, progettazione in base ai costi, GMP, ergonomia, dispositivi e materiali di consumo di medio-alto volume, produzione snella, settori regolamentati, CE e FDA, CAD, Solidworks, Lean Sigma Black Belt, ISO 13485 in ambito medico
Stiamo cercando un nuovo sponsor
La tua azienda o istituzione si occupa di tecnica, scienza o ricerca?
> inviaci un messaggio <
Ricevi tutti i nuovi articoli
Gratuito, no spam, email non distribuita né rivenduta
oppure puoi ottenere la tua iscrizione completa -gratuitamente- per accedere a tutti i contenuti riservati >Qui<
(se la data non è nota o non è rilevante, ad esempio "meccanica dei fluidi", viene fornita una stima approssimativa della sua notevole comparsa)
Principi di invenzione, innovazione e tecnica correlati
{{title}}
{% se estratto %}{{ excerpt | truncatewords: 55 }}
{% fine se %}
