Luigi Galvani: Difference between revisions

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'''Luigi Galvani''' was a physiologist credited with the discovery of [[bioelectricity]].
Early History


Luigi Galvani was a physiologist born in Bologna, N Italy. He studied at Bologna, where he became professor of anatomy in 1762. He was also appointed professor of obstetrics at the Institute of Arts and Sciences.
==Early History==


With the acquisition of an electrostatic machine (a device for making sparks) and a Leyden jar (a device used to store static electricity), Galvani found that the electric current delivered by the two would cause the contraction of muscles in the leg of a frog and many other animals, either by applying the charge to the muscle or to the nerve. The story of how he did so is written below.
Galvani was born in Bologna, N Italy. He studied at Bologna, where he became professor of anatomy in 1762. He was also appointed professor of obstetrics at the Institute of Arts and Sciences.  


With the acquisition of an [[electrostatic]] machine (a device for making sparks) and a [[Leyden jar]] (a device used to store static electricity), Galvani found that the electric current delivered by the two would cause the contraction of muscles in the leg of a frog and many other animals, either by applying the charge to the muscle or to the nerve.


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The story


In 1783, according to popular version of the story, Galvani dissected a [[frog]] at a table where he had been conducting experiments with [[static electricity]], Galvani's assistant touched an exposed [[sciatic nerve]] of the frog with a metal [[scalpel]], which had picked up a charge.{{Fact|date=February 2007}} At that moment, they saw sparks in an electricity machine and the dead frog's leg kick as if in life. The observation made Galvani the first investigator to appreciate the relationship between electricity and animation — or life. This finding provided a basis for the current understanding that electrical energy (carried by ions), and not air or fluid as in earlier [[Balloonist theory|balloonist theories]], is the impetus behind muscle movement. He is typically credited with the discovery of [[bioelectricity]].
==The story==


In 1783, according to the popular version of the story, Galvani dissected a [[frog]] at a table where he had been conducting experiments with [[static electricity]], Galvani's assistant touched an exposed [[sciatic nerve]] of the frog with a metal [[scalpel]], which had picked up a charge.{{Fact|date=February 2007}} At that moment, they saw sparks in an electricity machine and the dead frog's leg kick as if in life. The observation made Galvani the first investigator to appreciate the relationship between electricity and animation — or life. This finding provided a basis for the current understanding that electrical energy (carried by ions), and not air or fluid as in earlier [[Balloonist theory|balloonist theories]], is the impetus behind muscle movement. He is typically credited with the discovery of [[bioelectricity]].


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His posts and achievements


Luigi Galvani was appointed Reader in Anatomy at the University in 1762. His skill as a surgeon soon won him the Chair of Obstetrics at the Institute of Sciences, of which he was to become president in 1772. He was the first to discover the physiological action of electricity through the frog. His discoveries opened the way to new research in the physiology of muscle and nerve and pioneered the subject of electrophysiology (the study of the connection between living organisms and electricity).
==His posts and achievements==


Galvani was appointed Reader in Anatomy at the University in 1762. His skill as a surgeon soon won him the Chair of Obstetrics at the Institute of Sciences, of which he was to become president in 1772. He was the first to discover the physiological action of electricity through the frog. His discoveries opened the way to new research in the physiology of muscle and nerve and pioneered the subject of electrophysiology (the study of the connection between living organisms and electricity).


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==Sources==
References


Corrosion Doctors, Luigi galvani. Retrieved March 30, 2007, from Luigi Galvani Web site: http://www.corrosion-doctors.org/Biographies/GalvaniBio.htm  
* Corrosion Doctors, Luigi galvani. Retrieved March 30, 2007, from Luigi Galvani Web site: http://www.corrosion-doctors.org/Biographies/GalvaniBio.htm  


Bellis, M. Luigi galvani. Retrieved March 30, 2007, from Luigi Galvani Web site: http://inventors.about.com/library/inventors/bl_Galvani.htm  
* Bellis, M. Luigi Galvani. Retrieved March 30, 2007, from Luigi Galvani Web site: http://inventors.about.com/library/inventors/bl_Galvani.htm  


Biography, Luigi galvani biography. Retrieved March 30, 2007, from Luigi Galvani Biography Web site: http://www.biography.com/search/article.do?id=9305679  
* Biography, Luigi Galvani biography. Retrieved March 30, 2007, from Luigi Galvani Biography Web site: http://www.biography.com/search/article.do?id=9305679  


Wikipedia, Luigi galvani . Retrieved March 30, 2007, from Luigi Galvani Web site: http://en.wikipedia.org/wiki/Luigi_Galvani
* Wikipedia, Luigi Galvani . Retrieved March 30, 2007, from Luigi Galvani Web site: http://en.wikipedia.org/wiki/Luigi_Galvani
 
[[Category:CZ Live]]
[[Category:Biology Workgroup|Galvani, Luigi]]

Revision as of 15:44, 19 May 2007

Luigi Galvani was a physiologist credited with the discovery of bioelectricity.

Early History

Galvani was born in Bologna, N Italy. He studied at Bologna, where he became professor of anatomy in 1762. He was also appointed professor of obstetrics at the Institute of Arts and Sciences.

With the acquisition of an electrostatic machine (a device for making sparks) and a Leyden jar (a device used to store static electricity), Galvani found that the electric current delivered by the two would cause the contraction of muscles in the leg of a frog and many other animals, either by applying the charge to the muscle or to the nerve.


The story

In 1783, according to the popular version of the story, Galvani dissected a frog at a table where he had been conducting experiments with static electricity, Galvani's assistant touched an exposed sciatic nerve of the frog with a metal scalpel, which had picked up a charge.Template:Fact At that moment, they saw sparks in an electricity machine and the dead frog's leg kick as if in life. The observation made Galvani the first investigator to appreciate the relationship between electricity and animation — or life. This finding provided a basis for the current understanding that electrical energy (carried by ions), and not air or fluid as in earlier balloonist theories, is the impetus behind muscle movement. He is typically credited with the discovery of bioelectricity.


His posts and achievements

Galvani was appointed Reader in Anatomy at the University in 1762. His skill as a surgeon soon won him the Chair of Obstetrics at the Institute of Sciences, of which he was to become president in 1772. He was the first to discover the physiological action of electricity through the frog. His discoveries opened the way to new research in the physiology of muscle and nerve and pioneered the subject of electrophysiology (the study of the connection between living organisms and electricity).

Sources