lorentz force Synonyms
No Synonyms and anytonyms found
lorentz force Meaning
lorentz force (n)
the force experienced by a point charge moving along a wire that is in a magnetic field; the force is at right angles to both the current and the magnetic field
lorentz force Sentence Examples
- The Lorentz force is the combined effect of electric and magnetic fields on a moving electric charge.
- The Lorentz force deflects charged particles in the presence of electric and magnetic fields.
- The direction of the Lorentz force depends on the direction of the particle's motion, the electric field, and the magnetic field.
- The magnitude of the Lorentz force is determined by the charge of the particle, the strength of the electric and magnetic fields, and the particle's velocity.
- The Lorentz force is responsible for the deflection of charged particles in a cathode ray tube, creating the images on the screen.
- In particle accelerators, the Lorentz force bends the path of charged particles, allowing for the precise control of their trajectories.
- The Lorentz force is also responsible for the formation of the Earth's magnetosphere, which protects the planet from harmful solar radiation.
- The Lorentz force has applications in various technologies, including electric motors, generators, and mass spectrometers.
- The Lorentz force is the foundation of the Hall effect, which is used in sensors to measure magnetic fields.
- The Lorentz force plays a crucial role in the study of plasma physics, where charged particles interact with electromagnetic fields in astrophysical phenomena.
FAQs About the word lorentz force
the force experienced by a point charge moving along a wire that is in a magnetic field; the force is at right angles to both the current and the magnetic field
No synonyms found.
No antonyms found.
The Lorentz force is the combined effect of electric and magnetic fields on a moving electric charge.
The Lorentz force deflects charged particles in the presence of electric and magnetic fields.
The direction of the Lorentz force depends on the direction of the particle's motion, the electric field, and the magnetic field.
The magnitude of the Lorentz force is determined by the charge of the particle, the strength of the electric and magnetic fields, and the particle's velocity.
