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Electrical Current01:10

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Electrical current is defined as the rate at which charge flows. When there is a large current present, such as that used to run a refrigerator, a large amount of charge moves through the wire in a small amount of time. If the current is small, such as that used to operate a handheld calculator, a small amount of charge moves through the circuit over a long period of time. The SI unit for current is the ampere (A), named for the French physicist André-Marie Ampère (1775–1836).
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Current Density01:21

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The total amount of current flowing through one unit value of a cross-sectional area is referred to as current density. If the current flow is uniform, the amount of current flowing through a conductor is the same at all points along the conductor, even if the conductor area varies. The current density consists of the local magnitude and direction of the charge flow, which varies from point to point. Current density is measured in amperes per meter square, and direction is defined as the net...
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Eddy Currents01:25

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Since eddy currents occur only in conductors, magnets can separate metals from other materials. For example, in a recycling center, trash is dumped in batches down a ramp, beneath which lies a powerful magnet. Conductors in the trash are slowed by eddy currents, while nonmetals in the trash move on, separating from the metals. This works for all metals, not just ferromagnetic ones.
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Displacement Current01:19

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Charge and Current01:14

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Electric charge is the most fundamental quantity in an electric circuit. The effects of electric charge are encountered daily, such as when a wool sweater sticks to the human body or when a person receives a shock while walking on a carpet.
Charge is an inherent property of the atomic particles that make up matter and is measured in units called coulombs (C). Matter is composed of atoms, each consisting of electrons, protons, and neutrons. Electrons have a negative charge (-e), while protons...
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In parallel electrical connections, resistors are linked between the same pair of nodes, creating an equal voltage across each resistor. Kirchhoff's current law is applied to these connections, establishing that the sum of currents through these resistors equals the source current. Utilizing Ohm's law, the source current is determined as the product of the source voltage and the sum of the reciprocals of individual resistances. This relationship simplifies the process of finding the current...
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Transcranial Direct Current Stimulation for Online Gamers
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Energization of the Ring Current by Substorms.

J K Sandhu1, I J Rae1, M P Freeman2

  • 1Department of Space and Climate Physics, Mullard Space Science Laboratory University College London London UK.

Journal of Geophysical Research. Space Physics
|February 19, 2019
PubMed
Summary
This summary is machine-generated.

Substorm energy significantly boosts the ring current, especially during expansion and recovery phases. This substorm-ring current coupling provides energy for space weather events.

Keywords:
HOPERBSPICEVan Allen Probesmagnetospherering currentsubstorms

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Area of Science:

  • Space Physics
  • Magnetospheric Physics
  • Plasma Physics

Background:

  • Substorm energy transfer and partitioning within Earth's magnetosphere remain key research questions.
  • Understanding ring current energization is crucial for predicting space storm conditions and wave-particle interactions.

Purpose of the Study:

  • To quantify the energy input from substorms into the ring current.
  • To investigate the relationship between substorm phases and ring current energy content.

Main Methods:

  • Analysis of Radiation Belt Storm Probes Ion Composition Experiment (RBSPICE) data for H+, O+, and He+ ions.
  • Estimation and spatial binning of ring current energy content (L, magnetic local time).
  • Statistical analysis correlating ring current energy with substorm phases using an event list.

Main Results:

  • Ring current energy significantly increases during the substorm expansion and recovery phases compared to the growth phase.
  • Energy enhancement characteristics suggest ion injection from the tail plasma sheet post-substorm onset.
  • Energetic H+ ion loss observed in the afternoon sector, likely due to wave-particle interactions.

Conclusions:

  • Substorms contribute a significant, albeit estimated at ~9%, portion of their released energy to the ring current.
  • Substorm-ring current coupling is a vital process influencing magnetospheric dynamics and space weather.
  • Wave-particle interactions play a role in modulating energetic ion populations in the ring current.