Add to ORKG. The classical electromagnetic deduction of the power in electric circuits resorts to the Poynting’s theorem. However this theorem relies on an assumption regarding the expression of locally stored electromagnetic energy. This assumption allows for alternative expressions of the power required to build up the electromagnetic field, which are proposed and exploited in specific analyses. An alternative formulation is presented here based on the Slepian’s vector, directly derived form the Maxwell’s equations, that fits particularly to circuits, as it provides an easy and straightforward confirmation the power expression through circuit elements
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
Abstract: Purpose - The paper seeks to do the following. To provide an expression of the electromagn...
Abstract: Purpose - The paper seeks to do the following. To provide an expression of the electromagn...
This paper will analyze how the energy flux of Poynting's vector is compared to the power flow in el...
textA comprehensive and rigorous description of instantaneous balance of electromagnetic power defin...
textA comprehensive and rigorous description of instantaneous balance of electromagnetic power defin...
This paper will analyze how the energy flux of Poynting's vector is compared to the power flow in el...
Here we introduce some general principles and basic equations in relation to Maxwell’s laws. Though ...
Here we introduce some general principles and basic equations in relation to Maxwell’s laws. Though ...
We discuss the theory of electromagnetic fields, with an emphasis on aspects relevant to radiofreque...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
Here we introduce some general principles and basic equations in relation to Maxwell’s laws. Though ...
Poynting's vector theorem P=ExH is one of the universal laws of physics that applies to electromagne...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
Abstract: Purpose - The paper seeks to do the following. To provide an expression of the electromagn...
Abstract: Purpose - The paper seeks to do the following. To provide an expression of the electromagn...
This paper will analyze how the energy flux of Poynting's vector is compared to the power flow in el...
textA comprehensive and rigorous description of instantaneous balance of electromagnetic power defin...
textA comprehensive and rigorous description of instantaneous balance of electromagnetic power defin...
This paper will analyze how the energy flux of Poynting's vector is compared to the power flow in el...
Here we introduce some general principles and basic equations in relation to Maxwell’s laws. Though ...
Here we introduce some general principles and basic equations in relation to Maxwell’s laws. Though ...
We discuss the theory of electromagnetic fields, with an emphasis on aspects relevant to radiofreque...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
Here we introduce some general principles and basic equations in relation to Maxwell’s laws. Though ...
Poynting's vector theorem P=ExH is one of the universal laws of physics that applies to electromagne...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...
On January 10, 1884 Lord Rayleigh presented a paper entitled On the Transfer of Energy in the Elect...