What is another word for magnetic field?

Pronunciation: [maɡnˈɛtɪk fˈiːld] (IPA)

A magnetic field is a force field that is created by a magnet or a charged particle. It is a fundamental aspect of many physical, biological and industrial processes. There are several different synonyms for the term "magnetic field", including the terms electromagnetic field, magnetic flux, magnetic induction, and magnetic force. These terms are all used to describe the same physical phenomenon, which is the force created by a magnetic field. Understanding the various synonyms for the term "magnetic field" can help to clarify and simplify discussions of magnetism and its applications in science and technology.

Synonyms for Magnetic field:

What are the hypernyms for Magnetic field?

A hypernym is a word with a broad meaning that encompasses more specific words called hyponyms.

What are the hyponyms for Magnetic field?

Hyponyms are more specific words categorized under a broader term, known as a hypernym.

Famous quotes with Magnetic field

  • The application of a strong magnetic field enables the measurement of the energy of the most penetrating particles to be carried out, and the method may be capable of still further extension and improvement.
    Victor Francis Hess
  • Words can have no single fixed meaning. Like wayward electrons, they can spin away from their initial orbit and enter a wider magnetic field. No one owns them or has a proprietary right to dictate how they will be used.
    David Lehman
  • According to well-known electrodynamic laws, an electron moving in a magnetic field is acted upon by a force which runs perpendicular to the direction of motion of the electron and to the direction of the magnetic field, and whose magnitude is easily determined.
    Pieter Zeeman
  • In the absence of a magnetic field the period of all these oscillations is the same. But as soon as the electron is exposed to the effect of a magnetic field, its motion changes.
    Pieter Zeeman
  • It's amazing that pigeons, lobsters, turtles, and even rats don’t get lost on their way, and unlike humans, they don't need either mapquest or Google Maps or GPS to find their way home. This is because they have built-in GPS within themselves. These animals rely on and leverage Earth’s magnetic field for orientation and navigation. The neural source of magnetic sense in pigeons are now found to be the single cells that encode three key positioning factors: the direction of a magnetic field, its intensity, and its polarity (north or south). It's so amazing. Centuries ago, the pigeons were used in India to send messages across hundreds of miles. By understanding how the pigeons process the computing and mapping in the brain, one day that info can probably be used to imorove the spatial orientation in human brains. And some day in future, we may not need a GPS in the car, because that GPS will be within us, built-in and totally internal to guide us at all times.
    Deodatta V. Shenai-Khatkhate

Related words: electrostatic field, magnetic field lines, magnetic field strength, magnetic field visualization, magnetic fields in nature, how does a magnet work, how to make a magnetic field, magnetic field lines diagram, how do magnets work, what is a magnetic field, how does a magnet affect the human body

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