Definition of STATIC FIELD


A static field refers to an area or region in which a force or influence remains constant in magnitude and direction, without variation or movement over time. In physics, static fields are pervasive and may arise from electric charges, magnetic sources, or gravitational masses, exerting forces or effects on objects within their vicinity.

In Physics: In the realm of physics, a static field represents a fundamental concept in understanding the behavior of particles, objects, or systems subject to forces or interactions. Examples include the electric field surrounding a stationary electric charge, the magnetic field produced by a permanent magnet, or the gravitational field near a massive celestial body.

Electric Static Field: An electric static field arises from stationary electric charges, creating regions of influence characterized by the strength and direction of the electric force experienced by other charged particles within the field. These fields play a crucial role in various phenomena, such as electrostatic attraction or repulsion, capacitor operation, and the behavior of charged particles in electric circuits.

Magnetic Static Field: A magnetic static field emanates from permanent magnets or steady currents, exerting magnetic forces on magnetic materials or moving charges within the field. Magnetic fields influence the behavior of compass needles, magnetic materials, and charged particles in motion, contributing to applications such as magnetic levitation, magnetic resonance imaging (MRI), and data storage technologies.

Gravitational Static Field: The gravitational static field arises from massive objects, such as planets, stars, or galaxies, generating regions of influence characterized by the gravitational force experienced by other objects with mass. Gravitational fields govern celestial motions, planetary orbits, and the dynamics of astronomical systems, providing insights into the structure and evolution of the universe.

Examples of Static Fields: Examples of static fields include the electric field surrounding a charged capacitor, the magnetic field produced by a bar magnet, and the gravitational field near a massive planet like Earth. These fields influence the behavior of charged particles, magnetic materials, and celestial bodies, shaping the interactions and phenomena observed in various domains of science and technology.

Static fields represent areas or regions where forces or influences remain constant over time, playing fundamental roles in physics, engineering, and natural phenomena. Whether arising from electric charges, magnetic sources, or gravitational masses, static fields provide insights into the behavior of particles, objects, and systems subject to forces or interactions, contributing to our understanding of the physical universe and enabling diverse technological applications.

Examples of STATIC FIELD in a sentence

  • The scientist carefully measured the properties of the materials in the laboratory to ensure a stable static field for the experiment.
  • In the absence of external influences, the object maintained its position within the static field without any apparent motion.
  • Engineers designed a shielding system to protect sensitive equipment from interference in the static field generated by nearby electronic devices.
  • The research team observed the behavior of particles in a static field environment, studying their interactions in the absence of dynamic changes.
  • The artist created a sculpture that depicted the beauty of a serene landscape, capturing the essence of a tranquil static field.
  • In the digital realm, a static field is an area where information remains constant and unaltered over time.
  • The meteorological instruments detected a stable atmospheric pressure, indicating a relatively unchanging static field in the region.
  • The spacecraft entered a region of space with a consistent static field, allowing for uninterrupted communication and data transmission.


The term static field is a compound noun in English, reflecting its functional meaning.

  • English Formation: “Static field” combines the adjective “static,” indicating something that is stationary or unchanging, with the noun “field,” which in this context refers to an area or region characterized by a particular property or phenomenon.
  • Semantic Context: In modern usage, “static field” typically refers to a region of space surrounding an object or within a material where the electric or magnetic field remains constant in strength and direction over time. In physics, static electric fields are produced by stationary electric charges, while static magnetic fields are generated by permanent magnets or steady currents. These fields do not vary with time and are distinct from dynamic or time-varying fields.

The term static field emphasizes its association with fields that are stationary or unchanging over time, reflecting its compound noun formation in English and its specific usage in the context of physics to describe regions where electric or magnetic fields remain constant.


  • Unchanging region
  • Constant environment
  • Stable domain
  • Motionless space
  • Fixed zone
  • Invariant field
  • Quiescent area
  • Steady sector


  • Dynamic field
  • Changing environment
  • Unstable zone
  • Active space
  • Varied domain
  • Mobile area
  • Fluxuating region
  • Vibrant sector


  • Static conditions
  • Invariable state
  • Unaltered properties
  • Stationary characteristics
  • Persistent qualities
  • Consistent features
  • Unvarying attributes
  • Unchanged parameters

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