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相关概念视频

Electromotive Force02:36

Electromotive Force

Electricity is generated by either electrons or ions flowing through a solution or a conducting medium. This flow of electrons or specifically electrical charge is defined as an electric current. When electrons move through a wire, they generate an electric current. It can be recalled that in a redox reaction, electrons are lost and gained. In the spontaneous redox reaction of zinc with copper, when zinc is immersed in a copper ion solution, a transfer of electrons from one substance to...
Electrical Current01:10

Electrical Current

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). An ampere is the...
Electromotive Force01:02

Electromotive Force

Electromotive force (emf) is the force that causes current to flow from a higher to a lower  potential. The term "electromotive force" is used for historical reasons, even though emf is not a force at all.
Any circuit with a constant current must contain an emf-producing source. Examples of emf sources include batteries, electric generators, solar cells, thermocouples, and fuel cells. All these sources transform energy of some kind (mechanical, chemical, thermal, and so on) into electric...
Induced Electric Fields: Applications01:27

Induced Electric Fields: Applications

An important distinction exists between the electric field induced by a changing magnetic field and the electrostatic field produced by a fixed charge distribution. Specifically, the induced electric field is nonconservative because it does not work in moving a charge over a closed path. In contrast, the electrostatic field is conservative and does no net work over a closed path. Hence, electric potential can be associated with the electrostatic field but not the induced field. The following...
Continuity Equation01:20

Continuity Equation

The total amount of current flowing per unit cross-sectional area is called the current density. Hence, the current passing through a cross-sectional area can be written as the surface integral of the current density.
Continuity Equation01:28

Continuity Equation

The continuity equation asserts that the mass flow rate must remain constant for a steady flow of an incompressible fluid within a confined system. This principle applies to systems where fluid passes through varying cross-sectional areas, such as nozzles, syringes, and pipes.
The mass flow rate is expressed as:

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相关实验视频

Updated: Jul 12, 2026

Generation and Control of Electrohydrodynamic Flows in Aqueous Electrolyte Solutions
08:41

Generation and Control of Electrohydrodynamic Flows in Aqueous Electrolyte Solutions

Published on: September 7, 2018

索马里电流:表面流的演变

W Düing, R L Molinari, J C Swallow

    Science (New York, N.Y.)
    |August 1, 1980
    PubMed
    概括

    索马里目前的索马里流.

    科学领域:

    • 海洋学 海洋学 海洋学
    • 季风的动力学 季风的动力学
    • 物理海洋学 物理海洋学

    背景情况:

    • 索马里电流表现出季节性变化,受到季风模式的影响.
    • 了解其过渡对于区域海洋学和气候模型至关重要.

    研究的目的:

    • 为了记录索马里电流从东北向西南的过渡. 季风条件.
    • 分析当前在这个过渡时期的空间和时间进展.

    主要方法:

    • 1979年4月至8月的观测数据收集.
    • 分析电流的流量,边界和水质的结合.

    主要成果:

    • 西南季风索马里电流在8月份从赤道向东北推进到北4度.
    • 电流与海岸的分离发生在不同的阶段,而不是连续.
    • 来自南方和东方的盐水被纳入了北极4度以南的循环.
    • 6月份在6°N和10°N之间形成了一个顺时针旋转,沿海流向东北.

    结论:

    • 过渡涉及到当前和相关的旋转形成的逐步向北进展.
    • 季风季节性变化显著影响索马里电流的行为和循环模式.

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    Evolution of Staircase Structures in Diffusive Convection
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    Assessing the Influence of Personality on Sensitivity to Magnetic Fields in Zebrafish
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