paramagnetic

(adjective)

Exhibiting paramagnetism (the tendency of magnetic dipoles to align with an external magnetic field).

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(noun)

Materials that are attracted by an externally applied magnetic field and form internal, induced magnetic fields in the direction of the applied magnetic field.

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(noun)

attracted to the poles of a magnet

Related Terms

Examples of paramagnetic in the following topics:

  • Diamagnetism and Paramagnetism

    • Diamagnetic atoms have only paired electrons, whereas paramagnetic atoms, which can be made magnetic, have at least one unpaired electron.
    • Electrons that are alone in an orbital are called paramagnetic electrons.
    • Therefore, an atom is considered to be paramagnetic when it contains at least one paramagnetic electron.
    • In other words, an atom could have 10 paired (diamagnetic) electrons, but as long as it also has one unpaired (paramagnetic) electron, it is still considered a paramagnetic atom.
    • Paramagnetic properties are due to the realignment of the electron paths caused by the external magnetic field.

  • Transition Metals

    • The formation of many paramagnetic compounds due to the presence of unpaired d electrons.
    • A few compounds of main group elements are also paramagnetic (e.g., nitric oxide, oxygen).
    • Transition metal compounds are paramagnetic when they have one or more unpaired d electrons.
    • Ferromagnetism occurs when individual atoms are paramagnetic and the spin vectors are aligned parallel to each other in a crystalline material.

  • Physical Properties and Atomic Size

    • These include the formation of compounds whose color is due to d–d electronic transitions and the formation of many paramagnetic compounds due to the presence of unpaired d electrons.
    • Transition metal compounds are paramagnetic when they have one or more unpaired d electrons.
    • Ferromagnetism occurs when individual atoms are paramagnetic and the spin vectors are aligned parallel to each other in a crystalline material.

  • Detection and Observation of Radicals

    • The same unpaired or odd electron that renders most radical intermediates unstable and highly reactive may be induced to leave a characteristic "calling card" by a magnetic resonance phenomenon called "electron spin resonance" (esr) or "electron paramagnetic resonance" (epr).

  • Electron Configurations and Magnetic Properties of Ions

    • Some are attracted to a magnetic field (paramagnetism); others are repulsed by it (diamagnetism); still others have a much more complex relationship with an applied magnetic field (e.g., spin-glass behavior and antiferromagnetism).
    • If the ionization of an element yields an ion with unpaired electrons, these electrons may align the sign of their spins in the presence of a magnetic field, making the material paramagnetic.

  • The Third Law of Thermodynamics and Absolute Energy

    • Materials that remain paramagnetic at absolute zero, by contrast, may have many nearly-degenerate ground states, as in a spin glass, or may retain dynamic disorder, as is the case in a spin liquid.

  • Manganese

    • Manganese metal and its common ions are paramagnetic.

  • Lanthanides and Actinides

    • All actinides are radioactive, paramagnetic, and, with the exception of actinium, have several crystalline phases.

  • Chromium

    • Above 38 °C, it transforms into a paramagnetic state.

  • Properties of Oxygen

    • In normal triplet form, O2 molecules are paramagnetic.