Sunday, June 19, 2011

Robert Hooke



PHYSICIST NAME:Robert Hooke
STUDENT NAME: Angela Mari Peralta



Biography



Robert Hooke(18 July 1635 – 3 March 1703) was an English natural philosopher, architect and polymath who played an important role in the scientific revolution, through both experimental and theoretical work.

His adult life comprised three distinct periods:
as a brilliant scientific inquirer lacking money; achieving great wealth and standing through his reputation for hard work and scrupulous honesty following the great fire of 1666 (section:Hooke the architect), but eventually becoming ill and party to jealous intellectual disputes. These issues may have contributed to his relative historical obscurity

Hooke is known for his law of elasticity (Hooke's law), his book, Micrographia, and or first applying the word "cell" to describe the basic unit of life. Even now there is much less written about him than might be expected from the sheer industry of his life:

he was at one time simultaneously the curator of experiments of the Royal Society and a member of its council, Gresham Professor of Geometry and a Surveyor to the City of London after the Great Fire of London, n 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".

Hooke studied at Wadham College during the Protectorate where he became one of a tightly-knit group of ardent Royalists centred around 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, observed the rotations of Mars and Jupiter, and, based on his observations of fossils, 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 deducing that gravity follows an inverse square law, and that such a relation governs the motions of the planets, an idea which was subsequently developed by 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.

Hooke was also irascible, at least in later life, proud, and prone to take umbrage with intellectual competitors, though he was by all accounts also a staunch friend and ally and was loyal always to the circle of ardent Royalists with whom he had his early training at Wadham College, particularly Christopher Wren.

His reputation suffered after his death and this is popularly attributed to a dispute with Isaac Newton over credit for his work on gravitation and to a lesser degree light;

Newton, as President of the Royal Society, did much to obscure Hooke, including, it is said, destroying (or failing to preserve) the only known portrait of the man. It did not help that the first life of Wren, Parentalis, was written by Wren's son, and tended to exaggerate Wren's work over all others. Hooke's reputation was revived during the twentieth century through studies of Robert Gunther and Margaret 'Espinasse, and after a long period of relative obscurity he is now recognized as one of the most important scientists of his age.



CONTRIBUTIONS



Hooke's Law


"The power (sic.) of any springy body is in the same proportion with the extension."

Hooke's Law can best be explained as the relationship between the force exerted on the mass and its position (x). The object with mass that is on a frictionless surface and is attached to a spring of which the constant is (k).
The force exerted by the spring is relative to the spring's compression or expansion, making the force in question a function of the mass' position.
Any object which undergoes slight displacement from a stable point of equilibrium will oscillate about its equilibrium's position, undergoing a restoring force that is relative to its displacement from its stable point of equilibrium.

Fs=-kx













Robert Hooke wrote Micrographia, the first book describing observations made through a microscope. The drawing to the top left was created by Hooke. Hooke was the first person to use the word "cell" to identify microscopic structures when he was describing cork.

Hooke also wrote Hooke's Law -- a law of elasticity for solid bodies.

Robert Hooke, the English father of microscopy, re-confirmed Antony van Leeuwenhoek's discoveries of the existence of tiny living organisms found under the microscope in a drop of water. Hooke made a copy of Leeunwenhoek's microscope and used it to confirm other observations reported by Leeunwenhoek and to improve upon his design.


OBJECT OF INTEREST



I choose Robert Hooke, cause I believe that this physicist has contribute alot in the development of physics. He show his alleged witness in doing his experiments and theories. Through his perseverance and determination in contextualizing his theories, Hooke's surely mark up in the field of physics.

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