Translations:Introduction to Dielectricity & Capacitance (Eric P. Dollard)/25/en: Unterschied zwischen den Versionen

Aktuelle Version vom 18. Juli 2018, 20:05 Uhr

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== Dielectric Energy Storage Spatially Different than Magnetic Energy Storage ==
Unlike magnetism the energy is forced or compressed inwards rather than outwards. Dielectric lines of force push inward into internal space and along axis, rather than pushed outward broadside to axis as in the magnetic field. Because the lines are mutually repellent certain amounts of broadside or transverse motion can be expected but the phenomena is basically longitudinal. This gives rise to an interesting paradox that will be noticed with capacity. This is that the smaller the space bounded by the conducting structure the more energy that can be stored. This is the exact opposite of magnetism. With magnetism, the units volumes of energy can be though of as working in parallel but the unit volumes of energy in association with dielectricity can be thought of as working in series.

== Dielectric Energy Storage Spatially Different than Magnetic Energy Storage ==
Unlike magnetism the energy is forced or compressed inwards rather than outwards. Dielectric lines of force push inward into internal space and along axis, rather than pushed outward broadside to axis as in the magnetic field. Because the lines are mutually repellent certain amounts of broadside or transverse motion can be expected but the phenomena is basically longitudinal. This gives rise to an interesting paradox that will be noticed with capacity. This is that the smaller the space bounded by the conducting structure the more energy that can be stored. This is the exact opposite of magnetism. With magnetism, the units volumes of energy can be though of as working in parallel but the unit volumes of energy in association with dielectricity can be thought of as working in series.

Übersetzung== Dielectric Energy Storage Spatially Different than Magnetic Energy Storage ==
Unlike magnetism the energy is forced or compressed inwards rather than outwards. Dielectric lines of force push inward into internal space and along axis, rather than pushed outward broadside to axis as in the magnetic field. Because the lines are mutually repellent certain amounts of broadside or transverse motion can be expected but the phenomena is basically longitudinal. This gives rise to an interesting paradox that will be noticed with capacity. This is that the smaller the space bounded by the conducting structure the more energy that can be stored. This is the exact opposite of magnetism. With magnetism, the units volumes of energy can be though of as working in parallel but the unit volumes of energy in association with dielectricity can be thought of as working in series.

Dielectric Energy Storage Spatially Different than Magnetic Energy Storage

Unlike magnetism the energy is forced or compressed inwards rather than outwards. Dielectric lines of force push inward into internal space and along axis, rather than pushed outward broadside to axis as in the magnetic field. Because the lines are mutually repellent certain amounts of broadside or transverse motion can be expected but the phenomena is basically longitudinal. This gives rise to an interesting paradox that will be noticed with capacity. This is that the smaller the space bounded by the conducting structure the more energy that can be stored. This is the exact opposite of magnetism. With magnetism, the units volumes of energy can be though of as working in parallel but the unit volumes of energy in association with dielectricity can be thought of as working in series.

Translations:Introduction to Dielectricity & Capacitance (Eric P. Dollard)/25/en: Unterschied zwischen den Versionen

Aktuelle Version vom 18. Juli 2018, 20:05 Uhr

Dielectric Energy Storage Spatially Different than Magnetic Energy Storage

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