Most Physicists (and all Chemists) will probably agree that the crucial
empirical observations that set modern science on the track of atoms
(as we now know them) occurred around the transition between
the Eighteenth and Nineteenth Centuries
when a number of scientists including Antoine Laurent Lavoisier,
Bryan and William Higgins, Joseph Louis Proust, John Dalton and
Joseph Louis Gay-Lussac23.1
discovered that certain chemical agents combined in simple integer
ratios of their `` MOLECULAR WEIGHTS'' with other agents,
a phenomenon most easily explained by assuming that these agents
were the true chemical elements sought by the
Alchemists23.2
and furthermore that one MOLECULAR WEIGHT of any
ELEMENT contained the same number of ATOMS
of that element! This specific hypothesis is credited to
Lorenzo Romano Amadeo Avogardo who in 1811 made a clear
distinction between ATOMS (irreducible chemical units)
and MOLECULES, which are clumps of atoms. For his trouble
he got AVOGADRO'S NUMBER N0 named after him.
The actual number of atoms (or, for that matter,
molecules) in one MOLECULAR WEIGHT (or MOLE)
of the corresponding element is
(23.1) |
You may recognize this number from the Chapter on THERMAL PHYSICS, in particular the Section on the KINETIC THEORY OF GASES, the qualitative assumptions of which dated back as far as Robert Boyle, Robert Hooke and Isaac Newton himself in the late Seventeenth Century. The work of Daniel Bernoulli in 1738 foreshadowed the use of kinetic theory by Joseph Loschmidt in 1865 to make the first determination of the value of N0 from measurements of the actual behaviour of gases. STATISTICAL MECHANICS actually played a major rôle in the development of modern Atomic theory, but its rôle is often downplayed in historical accounts simply because its is harder to understand. I will probably do likewise - but at least I admit it!