He discovered Hooke's Law of elasticity. He designed and ordered the making of telescopes and microscopes, and used both instruments. He reported on this work in a book called Micrographia in 1665. He was the first person to see biological cells. He made drawings of bodies in the Solar System, and made the first attempts to measure the distance of certain stars.[5]
Robert Hooke was appointed the Royal Society's first Curator of Experiments in 1662, and he rose to be Secretary of the Royal Society. He took responsibility for experiments performed at its weekly meetings. This was a position he held for over 40 years.
In 1664 Hooke also was appointed Professor of Geometry at Gresham College in London and Cutlerian Lecturer in Mechanics.[6]
On 8 July 1680, Hooke observed the nodal patterns associated with the mode of vibration of glass plates. He ran a bow along the edge of a glass plate covered with flour, and saw the nodal patterns emerge.[7][8]p101
Hooke did some fundamental work on gravitation and the motion of the planets. Forever after, he was convinced that Newton and the world had cheated him of the credit[5]p389
Natural history
He was also known for his work in natural history (biology and geology).[9] He reported on his microsope use in a book called Micrographica in 1665. He was the first person to see biological cells, and was the first to use the word 'cell' to describe them.
In 1668, in a talk to the Royal Society, he recognised that fossil shells of unknown marine animals suggested that some species had become extinct.
Hooke achieved fame in his day as Surveyor to the City of London and chief assistant of Christopher Wren. Hooke helped Wren rebuild London after the Great Fire in 1666.
Hooke's collaboration with Christopher Wren included St Paul's Cathedral, whose dome uses a method of construction conceived by Hooke. Hooke also participated in the design of the Pepys Library, which held the manuscripts of Samuel Pepys's diaries, the most frequently cited eyewitness account of the Great Fire of London.[10]
In the reconstruction after the Great Fire, Hooke proposed redesigning London's streets on a grid pattern with wide boulevards. This pattern was used in the later renovation of Paris, Liverpool, and many American cities. The proposal was rejected. The opponents
argued that in practice property owners were secretly shifting their boundaries. Hooke was in demand to settle many of these disputes, due to his skill as a surveyor and his tact as an arbitrator.[11]
↑Oxford Dictionary of Scientists. Oxford University Press, 1999.
↑Hooke, Robert (1705) 1978. Lectures and discourses of eathquakes and subterranean eruptions. Explicating the causes of the rugged and uneven face of the Earth, and what reasons may be given for the frequent finding of shells and other sea and land petrified substances, scattered over the whole terrestrial superficies. In Waller R. (ed) The posthumous works of Robert Hooke. Containing his Cutlerian lectures and other discourses, read at meetings of the illustrious Royal Society. 2nd facsimile edition, with a new introduction by T.M. Brown of Princeton University. London: Frank Cass, Part V.
↑Hyam, R. (1982). Magdalene Described. Sawston, Cambridgeshire, U.K.: Crampton & Sons Ltd.
