What is Magnetic fields: Definition and 673 Discussions

A magnetic field is a vector field that describes the magnetic influence on moving electric charges, electric currents, and magnetic materials. A moving charge in a magnetic field experiences a force perpendicular to its own velocity and to the magnetic field. A permanent magnet's magnetic field pulls on ferromagnetic materials such as iron, and attracts or repels other magnets. In addition, a magnetic field that varies with location will exert a force on a range of non-magnetic materials by affecting the motion of their outer atomic electrons. Magnetic fields surround magnetized materials, and are created by electric currents such as those used in electromagnets, and by electric fields varying in time. Since both strength and direction of a magnetic field may vary with location, they are described as a map assigning a vector to each point of space or, more precisely—because of the way the magnetic field transforms under mirror reflection—as a field of pseudovectors.
In electromagnetics, the term "magnetic field" is used for two distinct but closely related vector fields denoted by the symbols B and H. In the International System of Units, H, magnetic field strength, is measured in the SI base units of ampere per meter (A/m). B, magnetic flux density, is measured in tesla (in SI base units: kilogram per second2 per ampere), which is equivalent to newton per meter per ampere. H and B differ in how they account for magnetization. In a vacuum, the two fields are related through the vacuum permeability,




B


/


μ

0


=

H



{\displaystyle \mathbf {B} /\mu _{0}=\mathbf {H} }
; but in a magnetized material, the terms differ by the material's magnetization at each point.
Magnetic fields are produced by moving electric charges and the intrinsic magnetic moments of elementary particles associated with a fundamental quantum property, their spin. Magnetic fields and electric fields are interrelated and are both components of the electromagnetic force, one of the four fundamental forces of nature.
Magnetic fields are used throughout modern technology, particularly in electrical engineering and electromechanics. Rotating magnetic fields are used in both electric motors and generators. The interaction of magnetic fields in electric devices such as transformers is conceptualized and investigated as magnetic circuits. Magnetic forces give information about the charge carriers in a material through the Hall effect. The Earth produces its own magnetic field, which shields the Earth's ozone layer from the solar wind and is important in navigation using a compass.

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  1. P

    Discussion work on magnetic fields. (Clarification only)

    Specifically: 1. If there are two (horseshoe) magnets that are facing each (unlike poles facing ea) other and an iron ring is placed in between them. Why are there no magnetic fields inside the iron ring? - As far as my understanding goes. I believe that there's no magnetic field inside the...
  2. M

    Lorentz force? & Magnetic fields

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  3. C

    What Happens to the Magnetic Field Outside of a Motor Coil?

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  4. S

    Question on positive negative magnetic fields

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  5. G

    Solving for Magnetic Fields from time varying Electric fields

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  6. P

    How do light's magnetic fields work?

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  7. C

    Why do magnetic fields appear when an electric current passes through a wire?

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  8. L

    Behavior of MR Fluids in Magnetic Fields

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  9. S

    How Does Current Affect the Magnetic Force Between Two Wires?

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  10. A

    What metal is used to concentrate magnetic fields in this video?

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  11. N

    Magnetic fields and Permeability

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  12. M

    Measuring up to ~2T magnetic fields

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  13. Y

    Right Hand Rule Applied to Loops in Magnetic Fields

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  14. C

    Hey I was wondering why I got this problem wrong on magnetic fields

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  15. A

    Medical Are Strong Oscillating Magnetic Fields Safe?

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  16. J

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  17. T

    Question about magnetic fields and magnetic forces

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  18. N

    Charges moving parallel to magnetic fields and direction of magnetic force

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  19. T

    Magnetic Fields Around Earth: Effects on Smaller Magnetic Fields

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  20. K

    Magnetic Fields and Resistance

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  21. T

    Calculating Magnetic Fields in Solenoids vs. Current Loops and Coils

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  22. V

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  23. C

    Can someone please explain this solution? (magnetic fields))

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  24. I

    Evoltuion of Magnetic Fields in Neutron Stars

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  25. N

    Modelling static magnetic fields for electromagnets

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  26. D

    Magnetic Fields from Currents in a Wire

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  27. K

    Are both velocity and jerk of charges responsible for magnetic fields?

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  28. S

    Magnetic fields and charged particles

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  29. N

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  30. S

    Applications of Magnetic Fields

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  31. G

    Building a coil for generating ELF magnetic fields

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  32. _maxim_

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  33. S

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  34. S

    Magnetic fields and the right hand grip rule

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  35. A

    How can we see visible light since electric and magnetic fields are invisible?

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  36. A

    The emf of a string in a circle - magnetic fields

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  37. F

    Determining Counter EMF in Magnetic Fields

    In the example diagram I have provided how can the counter EMF produced by the conductor moving through the magnetic field be determined? I am assuming the field is uniform and that the velocity and current in the wire is constant. My logic tells me that there is no net flux cut by the...
  38. R

    Where Does the Energy Go When Magnetic Fields Cancel?

    I got this electromagnetic field detector that can measure magnetic field (B-fields) of Alternating Current of 60 Hz. Supposed after getting the 2 wires together and the magnetic field canceled and reading lowered from 10 milligauss to 1 or 0 milligauss. Does it mean getting a meter that...
  39. T

    Induction of emf in moving conductors in magnetic fields

    In preparation for an upcoming physics exam I have been going through some past paper questions. This question is from the multiple choice section of the paper, so while I can check the answer there is no source from which I can see it being worked through. Homework Statement An aircraft...
  40. A

    Complex orthogonality of electric and magnetic fields

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  41. P

    Understanding the Interaction of Magnetic Fields: Attraction and Repulsion

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  42. C

    What causes induced magnetic fields?

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  43. P

    Magnetic Fields and Current

    Hi, Question: There are two long, parallel vertical wires, each carrying currents in the same direction. The wire passes through a horizontal sheet of card. The card is removed and one of the two wires is free to move. Describe and explain the changes in velocity, and in acceleration of...
  44. B

    Write down the equations for the real electric and magnetic fields for a

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  45. P

    Induced Solenoid Voltage by external magnetic fields

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  46. M

    Changes in magnetic fields and causality

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  47. D

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  48. P

    Understanding Magnetic Fields: The Relationship Between Current and Force

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  49. P

    Choose the best answer on Magnetic Fields and Moving charges

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  50. P

    Need serious help with right hand rule please for magnetic fields

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