unstable

(adjective)

For an electron orbiting the nucleus, according to classical mechanics, it would mean an orbit of decreasing radius and approaching the nucleus in a spiral trajectory.

Related Terms

Examples of unstable in the following topics:

  • Nuclear Fission

    • These nuclei are called unstable, and this instability can result in radiation and fission.
    • The combination of these two produces 236U, which is an unstable element that undergoes fission.
    • In nuclear fission, an unstable atom splits into two or more smaller pieces that are more stable, and releases energy in the process.
    • If U-235 is bombarded with a neutron (light blue small circe), the resulting U-236 produced is unstable and undergoes fission.

  • Hydrophilic and Hydrophobic Colloids

    • Since the colloid does not interact with the aqueous solvent, hydrophobic colloids are inherently unstable and generally do not form spontaneously.
    • An example of this is seen in the separation of the oil and vinegar components of vinaigrette, an unstable emulsion that will quickly separate unless shaken almost continuously.
    • In C, the unstable emulsion progressively separates.

  • Nuclear Stability

    • However, if neutron count surpasses an ideal ratio, a nucleus becomes unstable and can undergo radioactive decay.
    • Only 90 isotopes in this region are believed to be perfectly stable, while 163 more are understood to be theoretically unstable but have never been observed to decay.

  • Nucleophilicity of Phosphorus Compounds

    • Phosphite esters react in the same manner, but the resulting phosphonium salts (shaded box) are often unstable, and on heating yield dialkyl phosphonate esters by way of a second SN2 reaction (equation 2 below).

  • Modes of Radioactive Decay

    • Radioactive decay occurs when an unstable atomic nucleus emits particles or light waves.
    • Radioactive decay occurs when an unstable atomic nucleus loses energy by emitting energy in the form of emitted particles or electromagnetic waves, called radiation.
    • Some isotopes of a given element are more unstable than others, causing a nuclear reaction which releases energy to achieve a more stable nuclear configuration.

  • Reaction of Amines with Nitrous Acid

    • Because it is unstable, it is prepared immediately before use in the following manner:
    • Loss of nitrogen is slower than in aliphatic 1º-amines because the C-N bond is stronger, and aryl carbocations are comparatively unstable.

  • Elimination

    • The intermediate in this mechanism is an unstable benzyne species, as displayed in the the second diagram above.

  • Antiaromaticity

    • Planar bridged annulenes having 4n π-electrons have proven to be relatively unstable.

  • Isotopes of Hydrogen

    • Other highly unstable nuclei (4H to 7H) have been synthesized in the laboratory, but do not occur in nature.
    • It is a highly unstable isotope of hydrogen.
    • 5H is another highly unstable heavy isotope of hydrogen.

  • Sulfur Compounds

    • Other oxides are known—sulfur monoxide and disulfur mono- and dioxides—but they are unstable.
    • Sulfur dioxide and sulfites (SO32−) are related to the unstable sulfurous acid (H2SO3).
    • Peroxides convert sulfur into unstable compounds such as S8O, a sulfoxide.