His adult life comprised three distinct periods: as a scientific
inquirer lacking money; achieving great wealth and standing through his
reputation for hard work and scrupulous honesty following the
great fire of 1666,
and eventually becoming ill and party to jealous intellectual disputes
(the latter may have contributed to his relative historical obscurity).
At one time he was simultaneously the curator of experiments of the
Royal Society, a member of its council,
Gresham Professor of Geometry, and Surveyor to the City of London after the
Great Fire of London
(in which capacity he appears to have performed more than half of all
the surveys after the fire). He was also an important architect of his
time – though few of his buildings now survive and some of those are
generally misattributed – and was instrumental in devising a set of
planning controls for London whose influence remains today.
Allan Chapman has characterised him as "England's
Leonardo".
Robert Gunther's
Early Science in Oxford,
a history of science in Oxford during the Protectorate, Restoration and
Age of Enlightenment, devotes five of its fourteen volumes to Hooke.
Hooke studied at
Wadham College, Oxford during the
Protectorate where he became one of a tightly knit group of ardent
Royalists led by
John Wilkins. Here he was employed as an assistant to
Thomas Willis and to
Robert Boyle, for whom he built the vacuum pumps used in Boyle's
gas law experiments. He built some of the earliest
Gregorian telescopes
and observed the rotations of Mars and Jupiter. In 1665 he inspired the
use of microscopes for scientific exploration with his book,
Micrographia. Based on his microscopic observations of fossils, Hooke was an early proponent of biological
evolution. He investigated the phenomenon of
refraction, deducing the
wave theory of light,
and was the first to suggest that matter expands when heated and that
air is made of small particles separated by relatively large distances.
He performed pioneering work in the field of surveying and map-making
and was involved in the work that led to the first modern plan-form map,
though his plan for London on a grid system was rejected in favour of
rebuilding along the existing routes. He also came near to an
experimental proof that
gravity follows an
inverse square law, and hypothesised that such a relation governs the motions of the planets, an idea which was independently developed by
Isaac Newton. Much of Hooke's scientific work was conducted in his capacity as curator of experiments of the
Royal Society, a post he held from 1662, or as part of the household of Robert Boyle.