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AC Sources01:20

AC Sources

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Direct current is a flow of electric charge in only one direction and has a steady state of constant voltage in the circuit. Rectifiers, batteries, commutator-equipped generators, and fuel cells are some examples of devices that generate direct current. Nowadays, most applications use a time-varying voltage source. Alternating current is a flow of electric charge that periodically reverses direction. An alternating current is produced by an alternating emf that is generated in a power plant. If...
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Directional Relays01:25

Directional Relays

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Directional relays, essential for managing unidirectional fault currents, enhance the safety and efficiency of power systems. On power lines equipped with directional relays, faults downstream (to the right) of the current transformer typically cause the fault current to lag the bus voltage by approximately 90 degrees, known as the forward direction. In contrast, upstream (left-side) faults may result in the fault current leading the bus voltage by nearly 90 degrees, termed the reverse...
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Sinusoidal Sources01:18

Sinusoidal Sources

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Direct current (DC) refers to an electric current that flows in a single direction, maintaining a constant polarity. This is in contrast to alternating current (AC), which periodically changes its direction and magnitude. AC forms the backbone of modern electricity transmission and distribution systems due to its efficient long-distance transmission capabilities.
In homes, the power supplies use sinusoidal sources to provide electricity. These sources generate a voltage that varies sinusoidally...
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Force On A Current Loop In A Magnetic Field01:17

Force On A Current Loop In A Magnetic Field

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Magnetic forces on wires carrying current are most frequently applied in motors. A DC motor is a device that converts electrical energy into mechanical work. In motors, wire loops are enclosed in a magnetic field. When current flows through the loops, the magnetic field applies torque, which causes the shaft to rotate. The direction of the current is reversed once the loop's surface area is lined up with the magnetic field, causing a constant torque on the loop. During the process,...
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Lenz's Law01:15

Lenz's Law

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The direction in which the induced emf drives the current around a wire loop can be found through the negative sign. However, it is usually easier to determine this direction with Lenz's law, named in honor of its discoverer, Heinrich Lenz (1804–1865). Lenz's law states that the direction of the induced emf drives the current around a wire loop always to oppose the change in magnetic flux that causes the emf.
If a bar magnet is moved toward a coil such that the magnetic flux...
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Resistor in an AC Circuit01:31

Resistor in an AC Circuit

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An alternating emf or voltage source is needed to supply an alternating current (AC) to a circuit. A coil of wire rotating in a magnetic field at a constant angular speed represents such a source. It also generates a sinusoidal alternating emf and serves as an industrial alternator.
One-way current through the meter is measured using diodes. A diode is a device with better conductivity in one direction compared to the other; in its ideal state, it has zero resistance in one direction and allows...
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Video Experimental Relacionado

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Magnetically-Assisted Remote Controlled Microcatheter Tip Deflection under Magnetic Resonance Imaging
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Alterna la dirección de la corriente

Peng Guo1, Ke-Yin Ye1

  • 1Key Laboratory of Molecule Synthesis and Function Discovery (Fujian Province University), College of Chemistry, Fuzhou University, Fuzhou, China.

Science (New York, N.Y.)
|April 6, 2023
PubMed
Resumen
Este resumen es generado por máquina.

La electrólisis controlada por forma de onda ofrece un nuevo método para las reacciones de acoplamiento carbono-carbono. Esta técnica une eficientemente los ácidos carboxílicos, lo que hace avanzar la síntesis orgánica.

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Área de la Ciencia:

  • La electroquímica
  • Síntesis orgánica
  • Catálisis

Sus antecedentes:

  • La formación de enlaces carbono-carbono es fundamental en la química orgánica.
  • Los métodos tradicionales para el acoplamiento de ácido carboxílico a menudo requieren condiciones duras o catalizadores específicos.
  • El desarrollo de estrategias de acoplamiento más suaves y eficientes es un desafío continuo.

Objetivo del estudio:

  • Introducir un nuevo método de electrólisis controlado por la forma de onda.
  • Demostrar la eficacia de este método para el acoplamiento carbono-carbono de los ácidos carboxílicos.
  • Explorar el mecanismo y el alcance de la reacción.

Principales métodos:

  • Síntesis electroquímica que utiliza formas de onda controladas con precisión.
  • Sustratos de ácido carboxílico sometidos a condiciones de acoplamiento reductivo.
  • Análisis de los productos de reacción mediante técnicas estándar de química orgánica (por ejemplo, RMN, GC-MS).

Principales resultados:

  • Se logró el acoplamiento exitoso carbono-carbono de varios ácidos carboxílicos.
  • El control de la forma de onda permitió una alta selectividad y rendimiento.
  • El método funciona bajo condiciones electroquímicas suaves.

Conclusiones:

  • La electrólisis controlada por forma de onda es una herramienta poderosa para la formación de enlaces C-C a partir de ácidos carboxílicos.
  • Este enfoque ofrece una alternativa sostenible y eficiente a los métodos de acoplamiento existentes.
  • La técnica es prometedora para aplicaciones más amplias en química orgánica sintética.