Chemistry, Third edition

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400 21 · NUCLEAR AND RADIOCHEMISTRY


Definition of radioactivity


Atomic nuclei are said to be unstablewhen they spontaneously disintegrateand simul-
taneously give off nuclear radiation. This phenomenon is called radioactivity. The
key ideas in this definition are:


  1. Spontaneous


Radioactivity is spontaneous. This means that it does not require any help to start or
to continue. The rate of disintegration does notdepend upon temperature. This is in
contrast to chemicalreactions, whose rates are often drastically affected by changes in
temperature. The radioactive decay of the nucleus of an atom is unaffected by the
presence of other atoms and cannot be catalysed. For example, uranium-235 decays
at the same speed (and into the same products) whether it is pure uranium, combined
as uranium oxide (UO 2 ) or as uranium fluoride (UF 6 ).


  1. Disintegration


In radioactive decay, one nuclidechanges into another. We can represent this as


parent nuclide daughter nuclide nuclear radiation

where the term ‘nuclide’ means an atomof a particular isotope. As a result of this
change, the number of protons or neutrons (or both) in the parent nuclide changes.
Where the number of protons changes, a new element is formed. Radioactive
changes are therefore very different from chemical reactions, in which atoms are
neither destroyed nor created and where reaction simply involves the rearrangement
of atoms to form new molecules.


  1. Nuclear radiation


The term ‘nuclear radiation’ includes particles (such as alpha particles, high-energy
electrons and nuclei), and also high-frequency light known as gamma rays. See Table
21.1 and Fig. 21.2.

Table 21.1The main types of nuclear radiation


Name Symbol Nature Penetration

Alpha particle^42 He^2 or helium nuclei (i.e. helium relatively massive but travel only
ions) a few cm in air and are stopped
by thin card
Beta particle  10 eor highly energetic (and fast travel up to 5 m in air; stopped
moving) electrons by thin metal plate
Positron  10 eor highly energetic positively as beta particle
charged electrons
Gamma rays  very short wavelength very penetrating; requires thick
electromagnetic radiation; lead plate and/or thick concrete
travels at the speed of light shielding
Neutrons*^10 n relatively massive particles as gamma rays
Fission fragments* – highly ionized nuclei of relatively massive and possess
medium and large atoms, enormous energies; stopped
e.g. U^20  by thick lead and concrete
shielding

* Produced during nuclear fission.
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