Hooke fulfilled the duties of secretary to the Royal Society during five years after the death of Henry Oldenburg in 1677, publishing in 1681-82 the papers read before that body under the title of Philosophical Collections. However he only announced the general law of elasticity in his lecture Of Spring given in 1678. Over a period of thirty years he made major contributions to geology, particularly his investigation of fossil remains which convinced him that major changes had occurred in the Earth's surface which had lifted fossilised shells of marine animals to high points in mountain ranges. Obviously because of the practical implications and importances of being able to calculate restoring force but also as a learning tool. Any new methods or discoveries that could improve how a clock works were going to be helpful with the creation of new clocks.
I also improved the citations to give a little of his background. He devised improved scientific instruments — thermometers, telescopes, microscopes, pendulums and pumps — as well as a pedometer, a marine barometer, a depth sounder and various navigational instruments. Unlike many of the gentleman scientists he interacted with, Hooke required an income. Hooke became Professor of Geometry at Gresham College. Facts about Robert Hooke give the interesting information about the English natural philosopher. He had suffered ill-health for some years, but the precise cause of his death was not recorded. He spent his last years in the Isle of Wight.
Chladni's experiment of strewing a vibrating bell with flour, investigated the nature of sound and the function of the air in respiration and combustion, and originated the idea of using the pendulum as a measure of gravity. It's cited by 'Espinasse, Jardine, Gribbin, Inwood and I am pretty sure also Cooper, though my copies are packed away during building work right now. Hooke also utilized the most up-to-date instruments in his many projects. He later went on to Oxford, where he worked as an assistant to Thomas Willis, a physician and founding member of the Royal Society, and worked alongside Robert Boyle, known for his discoveries on gases. He considered the possibilities of flying machines, long-distance signalling systems and bouncing shoes, which would shoot the wearer twelve feet up in the air. I have the five volumes of Gunther covering Hooke, my copy was previously owned by Margaret 'Espinasse, who wrote what I think was the first modern biography of Hooke.
In 1665, Robert Hooke published his most important work, a book named Micrographia. He was a very competent architect and was chief assistant to in his project to rebuild London after the Great Fire of 1666. At Westminster Hooke learnt Latin and Greek but, although he enjoyed speaking Latin, unlike his contemporaries he never wrote in Latin. Given his wide spectrum of interests, much of Hooke's work was left unfinished - such as his work on gravitation. A large portion of this work is devoted to Hooke's lectures on earthquakes. Hooke has been described as a:-. As a boy, he enrolled at Westminster School in London, where he studied classics and mechanics.
It all depends on whether you have things, or they have you. Hooke took an example of spring to demonstrate this. He studied thin pieces of cork by his microscope. People also recognize Hooke as a polymath and architect. He build efficient microscopes he did not invent the microscope as the previous answerer suggested and used them to accurately depict the external anatomies of small animals such as fleas. He made the compound microscope which allowed him to discover the cell. However I am well pleased to find that the truth will at length prevail when men have laid aside their prepossessions and prejudices.
He once took apart a clock to see how it worked and then built a replica of his own that was fully functional. He also invented a reflecting microscope, the universal joint, and a variety of clocks, barometers and optical devices. The already had in mind appointing Hooke to this position and indeed on 5 November 1662 he was given the position. Robert Hooke Portrait Facts about Robert Hooke 6: Micrographia Micrographia is the book by Hooke where he gave inspirations to other scientists to use the microscopes when dealing with scientific exploration in 1665. He worked on machines for making cider and measuring the wind.
In an ongoing, related project, Hooke worked for many years on the invention of a spring-regulated watch. . The law of elasticity is still considered a to this day. In fact 1660 was the year when a rather strange event happened regarding Hooke's spring controlled clocks. As a result, he strained many friendships. Â· The Cell: first person to coin the word 'cell' to describe the tiniest components of living systems - plants! It was here that he focused mainly on the study of mechanics.
Many circumstances concurred to embitter the latter years of his life. It was a well off church being in the patronage of St John's College, Cambridge. Here, he also worked as an assistant to Thomas Willis, a physician and founding member of the Royal Society. He observed the plants, the animals, the farms, the rocks, the cliffs, the sea, and the beaches around him. Marks of public respect were not indeed wanting to him.
He discovered the relationship between tension and extension of a spring. When Robert was 13 years old, his father died and left him a lot of money. He studied the crystal structure of snowflakes and the honeycomb structure of cork. If you can improve it,. Hooke isn't as well known as some of his contemporaries.
Privately, he did complain that others who he felt were less deserving had garnered more notoriety in their field. Hooke did indeed come up with a vast range of brilliant ideas many of which were claimed by others not because they wished to steal them from him, but rather because Hooke never followed through developing his ideas into building comprehensive theories. Facts about Robert Hooke 8: the first modern plan form map The first modern plan form map was inspired by the map making and surveying work of Hooke. He also is the one who thought of the Cell Theory. During the last couple of years of his life, Hooke's health deteriorated rapidly. This lead … to the statement of Hooke's Law.