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{{short description|German physicist and physiologist (1821–1894)}}
{{Infobox_Scientist
{{redirect|Helmholtz|other uses|Helmholtz (disambiguation)}}
|name = Hermann von Helmholtz
{{Use dmy dates|date=August 2023}}
|image = Hermann von Helmholtz.jpg|225px
{{Infobox scientist
|image_width = 225px
| honorific_suffix = {{post-nominals|country=GBR|size=100%|ForMemRS}}
|caption = Hermann Ludwig Ferdinand von Helmholtz
| image = Hermann von Helmholtz.jpg
|birth_date = [[August 31]], [[1821]]
| birth_date = {{birth date|df=y|1821|8|31}}
|birth_place = [[Potsdam]], [[Germany]]
| birth_place = [[Potsdam]], [[Kingdom of Prussia]]
|residence = [[Image:Flag_of_Germany.svg|20px|]] [[Germany]]
| death_date = {{death date and age|1894|df=y|9|8|1821|8|31}}
|nationality = [[Image:Flag_of_Germany.svg|20px|]] [[Germany|German]]
|death_date = [[September 8]], [[1894]]
| = [[]], [[]]
| education = Medicinisch-chirurgisches Friedrich-Wilhelm-Institut ([[Doctor of Medicine|MD]])
|death_place = [[Charlottenburg]], [[Berlin]], [[Germany]]
| known_for = {{collapsible list |title={{nobold|''See list''}}|{{ubl|item_style={{longitem}}|Studies in the [[conservation of energy]]}}|{{nowrap|[[Helmholtz theorem (classical mechanics)|Helmholtz classical theorem]]}}|[[Helmholtz coil]]|[[Helmholtz condition]] |[[Helmholtz decomposition]]|[[Helmholtz equation]]|[[Helmholtz free energy]]|[[Free entropy|Helmholtz free entropy]]|[[Helmholtz layer]]|[[Violin acoustics#Helmholtz motion|Helmholtz motion]]|{{no wrap|[[Helmholtz minimum dissipation theorem]]}}|[[Helmholtz pitch notation]]|[[Helmholtz reciprocity]]|[[Helmholtz resonance]]|[[Helmholtz temperament]]|[[Helmholtz's theorems]]|[[Helmholtz-Ellis notation|Helmholtz–Ellis notation]]|{{nowrap|[[Helmholtz–Kohlrausch effect]]}}|{{nowrap|[[Helmholtz-Smoluchowski equation|Helmholtz–Smoluchowski equation]]}}|[[Helmholtz–Thévenin theorem]]|[[Gibbs–Helmholtz equation]]|[[Kelvin–Helmholtz instability]]|[[Kelvin–Helmholtz mechanism]]|[[Young–Helmholtz theory]]|[[Smith-Helmholtz invariant]]| [[Additive synthesis]]|[[Efference copy]]|[[Heat death paradox]]|[[Hydrodynamic stability]]|[[Keratometer]]|[[Ophthalmoscopy]] |[[Place theory (hearing)|Place theory]]| [[Prism adaptation]]|[[Pure tone]]|[[Entoptic phenomenon]]|[[Supercapacitor]]| [[Unconscious inference]]|[[Vortex ring]]}}
|field = [[Physicist]] and [[physiologist]]
| spouse = {{marriage|[[Anna von Helmholtz|Anna von Mohl]]|1861}}
|work_institution = [[University of Königsberg]]</br>[[University of Bonn]]</br>[[University of Heidelberg]]</br>[[University of Berlin]]
| children = 3
|alma_mater = [[:de:Pépinière|Royal Friedrich-Wilhelm Institute]]
| relatives = [[Anna Augusta Von Helmholtz-Phelan]] (grand-niece)
|doctoral_advisor = [[Johannes Peter Müller]]
| awards = {{ublist|[[Fellow of the Royal Society#Foreign member|ForMemRS]] (1860)|[[Croonian Medal]] (1864)|[[Matteucci Medal]] (1868)|[[Copley Medal]] (1873)|''[[Pour le Mérite]]'' (1873)| {{nowrap|[[Faraday Lectureship Prize]] (1881)}}|[[Albert Medal (Royal Society of Arts)|Albert Medal]] (1888)}}
|doctoral_students =
| fields = {{ubl|[[Physics]]|[[Physiology]]|[[Psychology]]}}
[[Albert Abraham Michelson]] [[Image:Nobel.svg|20px]]</br>
| work_institutions = {{ubl|[[University of Königsberg]]|[[University of Bonn]]|[[University of Heidelberg]]|[[University of Berlin]]}}
[[Wilhelm Wien]] [[Image:Nobel.svg|20px]]</br>
| thesis_title = De fabrica systematis nervosi evertebratorum
[[William James]]</br>
| thesis_url = http://archiv.ub.uni-heidelberg.de/volltextserver/13299/
[[Heinrich Hertz]] </br>
| thesis_year = 1842
[[Michael Pupin]] </br>
| doctoral_advisor = [[Johannes Peter Müller]]
[[Friedrich Schottky]] </br>
| doctoral_students = {{ubl|[[Loránd Eötvös]]|[[Heinrich Hertz]]|[[Gabriel Lippmann]]|[[Otto Lummer]]|[[Albert A. Michelson]]|[[Max Planck]]|[[Mihajlo Pupin]]|[[Friedrich Schottky]]|[[Arthur Gordon Webster]]|[[Wilhelm Wien]]}}
[[Arthur Gordon Webster]]
| notable_students = {{ubl|[[Émile Boutroux]]|[[Johannes von Kries]]<ref>{{cite book | title=Hermann Von Helmholtz and the Foundations of Nineteenth-Century Science | author = David Cahan | publisher = University of California Press | year = 1993 | page = 198 | isbn = 978-0-520-08334-9 | url = https://books.google.com/books?id=Gx-ZGgeF2EwC&q=%22Johannes+von+Kries%22+psychologist&pg=PA198 }}</ref>|[[Edward Leamington Nichols|Edward Nichols]]|[[Henry Augustus Rowland]]|[[Wilhelm Wundt]]}}
<!--[[Edward Nichols]]-->
| signature = Hermann.von.Helmholtz.Signature.png
|known_for = [[Conservation of energy]]
|prizes =
|footnotes =
}}
}}
[[File:Helmholtz's polyphonic siren, Hunterian Museum, Glasgow.jpg|thumb|Helmholtz's polyphonic siren, Hunterian Museum, Glasgow]]
'''Hermann Ludwig Ferdinand von Helmholtz''' ([[August 31]], [[1821]] &ndash; [[September 8]], [[1894]]) was a [[Germany|German]] [[physician]] and [[physicist]]. In the words of the [[1911 Britannica]], "his life from first to last was one of devotion to science, and he must be accounted, on intellectual grounds, as one of the foremost men of the 19th century."


'''Hermann Ludwig Ferdinand von Helmholtz''' ({{IPAc-en|ˈ|h|ɛ|l|m| |h|oʊ|l|t|s}}; {{IPA|de|ˈhɛʁ.man vɔn ˈhɛlmˌhɔlts|lang}}; 31 August 1821 – 8 September 1894; "von" since 1883) was a German [[physicist]] and [[physician]] who made significant contributions in several scientific fields, particularly [[hydrodynamic stability]].<ref>{{Cite thesis |title=Robust flow stability: Theory, computations and experiments in near-wall turbulence |url=https://ui.adsabs.harvard.edu/abs/2004PhDT.......158B |date=1 January 2004 |first=Kumar Manoj |last=Bobba|bibcode=2004PhDT.......158B }}</ref> The [[Helmholtz Association of German Research Centres|Helmholtz Association]], the largest German association of [[research institution]]s, is named in his honour.<ref name="Gemeinschaft">{{Cite web |title=The polymath with a sense of practice |url=https://www.helmholtz.de/en/about-us/who-we-are/history/hermann-von-helmholtz/ |access-date=2024-10-04 |website=Helmholtz-Gemeinschaft Deutscher Forschungszentren}}</ref>
Helmholtz is notable in a number of areas of science.<ref name="Cahan">{{cite book | last = Cahan | first = David | title = Hermann von Helmholtz and the Foundations of Nineteenth-Century Science | publisher = University of California Press | year = 1993 | id = ISBN 0-520-08334-2}}</ref> In [[physiology]], he is known for his mathematics of the [[eye]], theories of [[vision]], ideas on the visual [[perception]] of space, [[color vision]] research, and on the sensation of tone, perception of sound, and [[empiricism]]. In [[physics]], he is known for his theories on the conservation of [[force]], work in [[electrodynamics]], [[chemical thermodynamics]], and on a [[mechanical]] foundation of [[thermodynamics]]. As a [[philosopher]], he his known for his philosophy of [[science]], ideas on the relation between the laws of perception and the [[laws of nature]], the science of [[aesthetics]], and ideas on the civilizing power of science.<ref name="Cahan" />


In the fields of [[physiology]] and [[psychology]], Helmholtz is known for his mathematics concerning the [[Human eye|eye]], [[Theory of vision|theories of vision]], ideas on the [[visual perception]] of space, [[colour vision]] research, the sensation of tone, perceptions of sound, and [[empiricism]] in the physiology of perception. In [[physics]], he is known for his theories on the conservation of [[energy]] and on the electrical [[Double layer (surface science)|double layer]], work in [[electrodynamics]], [[chemical thermodynamics]], and on a [[Mechanics|mechanical]] foundation of [[thermodynamics]]. Although credit is shared with [[Julius von Mayer]], [[James Joule]], and [[Daniel Bernoulli]]—among others—for the energy conservation principles that eventually led to the [[first law of thermodynamics]], he is credited with the first formulation of the energy conservation principle in its maximally general form.<ref name="Patton"/>
==Early life==
Helmholtz was the son of the [[Potsdam]] Gymnasium headmaster, [[Ferdinand Helmholtz]], who had studied classical [[philology]] and [[philosophy]], and who was a close friend of the publisher and philosopher [[Immanuel Hermann Fichte]]. Helmholtz's work is influenced by the philosophy of [[Johann Gottlieb Fichte|Fichte]] and [[Immanuel Kant|Kant]]. He tried to trace their theories in empirical matters like [[physiology]].


As a [[philosopher]], he is known for his [[philosophy of science]], ideas on the relation between the laws of perception and the [[physical law|laws of nature]], the science of [[aesthetics]], and ideas on the civilizing power of science. By the late nineteenth century, Helmholtz's development of a broadly Kantian methodology, including the ''a priori'' determination of the manifold of possible orientations in perceptual space, had inspired new readings of Kant<ref name="Patton"/> and contributed to the late modern [[Neo-Kantianism|neo-Kantianism]] movement in philosophy.<ref>{{cite web |url=https://plato.stanford.edu/entrieS/neo-kantianism/ |title=Neo-Kantianism |last=Heis |first=Jeremy |date=2018 |website=Stanford Encyclopedia of Philosophy |access-date=6 October 2024 |quote=This movement drew inspiration from a diverse cast of philosophers—principally, Kuno Fischer (Fischer 1860), Hermann von Helmholtz (Helmholtz 1867, 1878), Friedrich Lange (Lange 1866), Otto Liebmann (Liebmann 1865), and Eduard Zeller (Zeller 1862))—who in the middle of the nineteenth century were calling for a return to Kant’s philosophy as an alternative to both speculative metaphysics and materialism (Beiser 2014b).}}</ref>
As a young man, Helmholtz was interested in natural science, but his father wanted him to study medicine at the [[Charité]] because there was financial support for medical students.


== Biography ==
Helmholtz wrote about many topics ranging from the [[age of the Earth]] to the origin of the [[solar system]].


===Early years===
==Conservation of energy==
{{Thermodynamics timeline context|Helmholtz's work}}


Helmholtz was born in [[Potsdam]], the son of the local [[Gymnasium (school)|gymnasium]] headmaster, Ferdinand Helmholtz, who had studied [[classical philology]] and [[philosophy]], and who was a close friend of the publisher and philosopher [[Immanuel Hermann Fichte]]. Helmholtz's work was influenced by the philosophy of [[Johann Gottlieb Fichte]] and [[Immanuel Kant]]. He tried to trace their theories in empirical matters like [[physiology]].
His first important scientific achievement, an [[1847]] [[physics]] treatise on the [[conservation of energy]] was written in the context of his medical studies and philosophical background. He discovered the principle of conservation of energy while studying [[muscle]] [[metabolism]]. He tried to demonstrate that no energy is lost in muscle movement, motivated by the implication that there were no ''vital forces'' necessary to move a muscle. This was a rejection of the speculative tradition of ''[[Naturphilosophie]]'' which was at that time a dominant philosophical paradigm in German physiology.


As a young man, Helmholtz was interested in natural science, but his father wanted him to study medicine. Helmholtz earned a [[medical doctorate]] at Medicinisch-chirurgisches Friedrich-Wilhelm-Institute in 1842 and served a one-year internship at the [[Charité]] hospital<ref>R. S. Turner, ''In the Eye's Mind: Vision and the Helmholtz-Hering Controversy'', Princeton University Press, 2014, p. 36.</ref> (because there was financial support for medical students).
<div style="font-size:125%">
{{rquote|left|I admire the original, free mind of Helmholtz|[[Albert Einstein]]|''August 1899''<ref>Einstein, Albert. [Review of ''Hermann von Helmholtz. Zwei Vortrage uber Goethe''. W. Konig, ed. (Braunschweig: Vieweg, 1917).] ''Die Naturwissenschaften'' 5 (1917): 675. As quoted in: David Cahan’s 666-page book ''Hermann von Helmholtz and the Foundations of Nineteenth-Century Science'' (pg. v).</ref>
}}</div>


Trained primarily in physiology, Helmholtz wrote on many other topics, ranging from theoretical physics to the [[age of the Earth]], and to the origin of the [[Solar System]].
Drawing on the earlier work of [[Nicolas Léonard Sadi Carnot|Sadi Carnot]], [[Émile Clapeyron]] and [[James Prescott Joule]], he postulated a relationship between [[mechanics]], [[heat]], [[light]], [[electricity]] and [[magnetism]] by treating them all as manifestations of a single ''force'' ([[energy]] in modern terms<ref>{{Early science terminology warning}}</ref>). He published his theories in his book ''Über die Erhaltung der Kraft'' (''On the Conservation of Force'', 1847).


===University posts===
In the 1850s and 60s, building on the publications of [[William Thomson]], Helmholtz and [[William Rankine]] popularized the idea of the [[heat death of the universe]].


Helmholtz's first academic position was as a teacher of anatomy at the Academy of Arts in Berlin in 1848.<ref>{{cite book|title=Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783–2002|date=July 2006|publisher=The Royal Society of Edinburgh|isbn=0-902198-84-X|url=https://www.royalsoced.org.uk/cms/files/fellows/biographical_index/fells_indexp1.pdf|access-date=21 October 2016|archive-date=24 January 2013|archive-url=https://web.archive.org/web/20130124115814/http://www.royalsoced.org.uk/cms/files/fellows/biographical_index/fells_indexp1.pdf|url-status=dead}}</ref> He then moved to take a post of associate professor of physiology at the Prussian [[University of Königsberg]], where he was appointed in 1849. In 1855 he accepted a full professorship of anatomy and physiology at the [[University of Bonn]]. He was not particularly happy in Bonn, however, and three years later he transferred to the [[University of Heidelberg]], in [[Baden]], where he served as professor of physiology. In 1871 he accepted his final university position, as professor of physics at the [[Humboldt University of Berlin|Friedrich Wilhelm University]] in Berlin.
==Sensory physiology==

The sensory physiology of Helmholtz was the basis of the work of [[Wilhelm Wundt]], a student of Helmholtz, who is considered one of the founders of experimental [[psychology]]. He, more explicitly than Helmholtz, described his research as a form of empirical philosophy and as a study of the mind as something separate. Helmholtz had in his early refutal of the speculative early nineteenth century tradition of ''Naturphilosophie'' stressed the importance of [[materialism]], and was focusing more on the unity of "mind" and body.
== Research ==

[[File:Helmholtz 1848.jpg|thumb|upright|Helmholtz in 1848]]

===Mechanics===

His first important scientific achievement, an 1847 treatise on the [[conservation of energy]], was written in the context of his medical studies and philosophical background. His work on energy conservation came about while studying [[muscle]] [[metabolism]]. He tried to demonstrate that no energy is lost in muscle movement, motivated by the implication that there were no ''vital forces'' necessary to move a muscle. This was a rejection of the speculative tradition of ''[[Naturphilosophie]]'' and [[vitalism]] which was at that time a dominant philosophical paradigm in German physiology. He was working against the argument, promoted by some vitalists, that "living force" can power a machine indefinitely.<ref name="Patton">[https://plato.stanford.edu/entries/hermann-helmholtz/?simple=True Patton, Lydia. "Hermann von Helmholtz." (2008), Stanford Encyclopedia of Philosophy.]</ref>

Drawing on the earlier work of [[Nicolas Léonard Sadi Carnot|Sadi Carnot]], [[Benoît Paul Émile Clapeyron]] and [[James Prescott Joule]], he postulated a relationship between [[mechanics]], [[heat]], [[light]], [[electricity]] and [[magnetism]] by treating them all as manifestations of a single ''force'', or [[energy]] in today's terminology. He published his theories in his book ''Über die Erhaltung der Kraft'' (''On the Conservation of Force'', 1847).<ref>English translation published in ''Scientific memoirs, selected from the transactions of foreign academies of science, and from foreign journals: Natural philosophy'' (1853), p. 114; trans. by John Tyndall. [https://books.google.com/books?id=C1i4AAAAIAAJ&pg=PA114 Google Books], [http://hdl.handle.net/2027/uc1.b4252190?urlappend=%3Bseq=124 HathiTrust]</ref>

In the 1850s and 60s, building on the publications of [[William Thomson, 1st Baron Kelvin|William Thomson]], Helmholtz and [[William Rankine]] helped popularize the idea of the [[heat death of the universe]].

In fluid dynamics, Helmholtz made several contributions, including [[Helmholtz's theorems]] for vortex dynamics in inviscid fluids.<gallery>
File:Helmholtz-1.jpg|1889 copy of Helmholtz's "Uber die Erhaltung der Kraft", no. 1
File:Helmholtz-2.jpg|Title page of "Uber die Erhaltung der Kraft", no. 1
File:Helmholtz-3.jpg|First page of "Uber die Erhaltung der Kraft", no. 1
</gallery>

===Sensory physiology===

Helmholtz was a pioneer in the scientific study of human vision and audition. Inspired by [[psychophysics]], he was interested in the relationships between measurable physical stimuli and their correspondent human perceptions. For example, the amplitude of a sound wave can be varied, causing the sound to appear louder or softer, but a linear step in sound pressure amplitude does not result in a linear step in perceived loudness. The physical sound needs to be increased exponentially in order for equal steps to seem linear, a fact that is used in current electronic devices to control volume. Helmholtz paved the way in experimental studies on the relationship between the physical energy (physics) and its appreciation (psychology), with the goal in mind to develop "psychophysical laws".

The sensory physiology of Helmholtz was the basis of the work of [[Wilhelm Wundt]], a student of Helmholtz, who is considered one of the founders of experimental [[psychology]]. More explicitly than Helmholtz, Wundt described his research as a form of empirical philosophy and as a study of the mind as something separate. Helmholtz had, in his early repudiation of [[Naturphilosophie]], stressed the importance of [[materialism]], and was focusing more on the unity of "mind" and body.<ref>{{Cite book| title = Making Modern Science: A Historical Survey | author = Peter J. Bowler and Iwan Rhys Morus | publisher = University of Chicago Press | year = 2005 | page = 177 | isbn = 978-0-226-06861-9 | url = https://books.google.com/books?id=LEl3s-wYg10C&q=Helmholtz+materialism++sensory+nineteenth-century+Naturphilosophie&pg=PA177 }}</ref>


===Ophthalmic optics===
===Ophthalmic optics===
In [[1851]], Helmholtz revolutionized the field of ophthalmology with the invention of the [[ophthalmoscope]]; an instrument used to examine the inside of the human eye. This made him world famous overnight. Helmholtz's interests at that time were increasingly focused on the physiology of the senses. His main publication, entitled ''Handbuch der Physiologischen Optik'' (''Handbook of Physiological Optics''), provided empirical theories on spatial vision, [[color vision]], and [[motion perception]], and became the fundamental reference work in his field during the second half of the nineteenth century. His theory of [[accommodation reflex|accommodation]] went unchallenged until the final decade of the 20th century.


In 1851, Helmholtz revolutionized the field of [[ophthalmology]] with the invention of the [[ophthalmoscope]]; an instrument used to examine the inside of the [[human eye]]. This made him world-famous overnight. Helmholtz's interests at that time were increasingly focused on the physiology of the senses. His main publication, titled ''Handbuch der Physiologischen Optik'' (''Handbook of Physiological Optics'' or ''Treatise on Physiological Optics''; English translation of the 3rd volume [https://web.archive.org/web/20180320133752/http://poseidon.sunyopt.edu/BackusLab/Helmholtz/ here]), provided empirical theories on [[depth perception]], [[colour vision]], and [[motion perception]], and became the fundamental reference work in his field during the second half of the nineteenth century. In the third and final volume, published in 1867, Helmholtz described the importance of [[unconscious inference]]s for perception. The ''Handbuch'' was first translated into English under the editorship of [[James P. C. Southall]] on behalf of the [[Optical Society of America]] in 1924–5. His theory of [[accommodation reflex|accommodation]] went unchallenged until the final decade of the 20th century.
[[Image:Helmholtz.jpg|thumb|Helmholtz in front of Humboldt University in Berlin]]


Helmholtz continued to work for several decades on several editions of the handbook, frequently updating his work because of his dispute with [[Ewald Hering]] who held opposite views on spatial and color vision. This dispute divided the discipline of physiology during the second half of the 1800s.
Helmholtz continued to work for several decades on several editions of the handbook, frequently updating his work because of his dispute with [[Ewald Hering]] who held opposite views on spatial and vision. This dispute divided the discipline of physiology during the second half of the 1800s.

===Nerve physiology===

In 1849, while at Königsberg, Helmholtz measured the speed at which the signal is carried along a nerve fibre. At that time most people believed that nerve signals passed along nerves immeasurably fast.<ref name="glynn">{{cite book |last1=Glynn |first1=Ian |title=Elegance in Science|year=2010 |publisher= Oxford University Press|location=Oxford|isbn= 978-0-19-957862-7|pages=147–150 }}</ref> He used a recently dissected sciatic nerve of a frog and the calf muscle to which it attached. He used a [[galvanometer]] as a sensitive timing device, attaching a mirror to the needle to reflect a light beam across the room to a scale which gave much greater sensitivity.<ref name="glynn"/> Helmholtz reported<ref>Helmholtz, Hermann von (1850).''Vorläufiger Bericht über die Fortpflanzungs-Geschwindigkeit der Nervenreizung''. In: Archiv für Anatomie, Physiologie und wissenschaftliche Medicin. Veit & Comp., pp. 71–73. [http://vlp.mpiwg-berlin.mpg.de/library/data/lit29168 MPIWG Berlin]</ref><ref>Helmholtz, Hermann von (1850). ''Messungen über den zeitlichen Verlauf der Zuckung animalischer Muskeln und die Fortpflanzungsgeschwindigkeit der Reizung in den Nerven''. In: Archiv für Anatomie, Physiologie und wissenschaftliche Medicin. Veit & Comp., pp. 276–364. [http://vlp.mpiwg-berlin.mpg.de/library/data/lit1862 MPIWG Berlin]</ref> transmission speeds in the range of 24.6 – 38.4 meters per second.<ref name="glynn"/>


===Acoustics and aesthetics===
===Acoustics and aesthetics===
[[File:Hermann von Helmholtz-2.jpg|thumb|Last photograph of von Helmholtz, taken three days before his final illness]] [[File:Helmholtz resonator 2.jpg|right|thumb|The Helmholtz resonator (''i'') and instrumentation]]
In [[1863]] Helmholtz published a book called ''[[On the Sensations of Tone as a Physiological Basis for the Theory of Music]]'', once again demonstrating his interest in the physics of perception. This book influenced musicologists into the twentieth century. Helmholtz invented the [[Helmholtz resonance|Helmholtz resonator]] to show the strength of the various tones.


In 1863, Helmholtz published ''[[Sensations of Tone]]'', once again demonstrating his interest in the physics of perception. This book influenced musicologists into the twentieth century. Helmholtz invented the [[Helmholtz resonance|Helmholtz resonator]] to identify the various [[audio frequency|frequencies]] or [[Pitch (music)|pitches]] of the pure [[sine wave]] components of [[Fourier analysis#Applications in signal processing|complex sounds containing multiple tones]].<ref name="Helmholtz1885">{{cite book |url=https://archive.org/details/onsensationston00unkngoog |last=von Helmholtz |first=Hermann |year=1885 |title=On the sensations of tone as a physiological basis for the theory of music |edition=Second English |translator-first1=Alexander J. |translator-last1= Ellis |location=London |publisher=Longmans, Green, and Co. |page=[https://archive.org/details/onsensationston00unkngoog/page/n69 44] |access-date=12 October 2010 }}</ref>
There is an translation by Alexander J. Ellis copyright 1954 Dover Publications: 0-486-60753-4


Helmholtz showed that different combinations of resonators could mimic [[vowel]] sounds: [[Alexander Graham Bell]] in particular was interested in this but, not being able to read German, misconstrued Helmholtz's diagrams as meaning that Helmholtz had transmitted multiple frequencies by wire—which would allow multiplexing of telegraph signals—whereas, in reality, electrical power was used only to keep the resonators in motion. Bell failed to reproduce what he thought Helmholtz had done but later said that, had he been able to read German, he would not have gone on to invent the telephone on the [[harmonic telegraph]] principle.<ref>{{cite web | title = PBS, American Experience: The Telephone – More About Bell | website = [[PBS]]| url = https://www.pbs.org/wgbh/amex/telephone/peopleevents/mabell.html}}</ref><ref name="MacKenzie2008">MacKenzie 2003, p. 41.</ref><ref>Groundwater 2005, p. 31.</ref><ref>Shulman 2008, pp. 46–48.</ref>
==Electromagnetism==
In [[1871]] Helmholtz moved from [[Heidelberg]] to [[Berlin]] to become a professor in physics. He became interested in [[electromagnetism]].
[[Oliver Heaviside]] stated that there were [[longitudinal wave]]s in [[Helmholtz' electromagnetic theory|Helmholtz theory]]. Although he did not make major contributions to this field, his student [[Heinrich Rudolf Hertz]] became famous as the first to demonstrate [[electromagnetic radiation]]. Helmholtz had predicted E-M radiation from [[Maxwell's equations]], and the [[wave equation]] now carries his name. A large German association of [[research institution]]s, the [[Helmholtz Association]], is named after him.


[[File:Ludwig Knaus - Der Physiker Hermann von Helmholtz (1881).jpg|thumb|left|upright|Helmholtz in 1881, portrait by [[Ludwig Knaus]]]]
==Students and associates==
Other students and research associates of Helmholtz at Berlin included [[Max Planck]], [[Heinrich Kayser]], [[Eugen Goldstein]], [[Wilhelm Wien]], [[Arthur König]], [[Henry Augustus Rowland]], [[A. A. Michelson]], and [[Michael Pupin]]. [[Leo Koenigsberger]], who studied at Berlin while Helmholtz was there, wrote the definitive biography of him in 1902.


The translation by [[Alexander J. Ellis]] was first published in 1875 (the first English edition was from the 1870 third German edition; Ellis's second English edition from the 1877 fourth German edition was published in 1885; the 1895 and 1912 third and fourth English editions were reprints of the second).<ref>{{cite book |title=On the Sensations of Tone as a Physiological Basis for the Theory of Music |author=Hermann L. F. Helmholtz, M.D. |year=1912 |edition=Fourth |publisher=Longmans, Green, and Co |isbn=9781419178931 |url=https://archive.org/details/onsensationston01helmgoog}}</ref>
==See also==
*[[Helmholtz free energy]]
*[[Helmholtz coil]] which was named in his honor.
*[[Helmholtz resonance]]
*[[Helmholtz theorem]]
*[[Helmholtz decomposition]]
*[[Helmholtz equation]]
*[[Kelvin-Helmholtz instability]]
*[[Young-Helmholtz theory]], about the trichromatic colour vision


===Electromagnetism===
==References==
<references />


Helmholtz studied the phenomena of electrical oscillations from 1869 to 1871, and in a lecture delivered to the Naturhistorisch-medizinischen Vereins zu Heidelberg (Natural History and Medical Association of Heidelberg) on 30 April 1869, titled ''On Electrical Oscillations'' he indicated that the perceptible damped electrical oscillations in a coil joined up with a [[Leyden jar]] were about 1/50th of a second in duration.<ref>{{cite book|url=https://books.google.com/books?id=JCNWAAAAMAAJ&q=electrical+oscillation+helmholtz&pg=PA268|title=Hermann von Helmholtz|first=Leo|last=Koenigsberger|date=28 March 2018|publisher=Clarendon press|isbn=978-0-486-21517-4|access-date=28 March 2018|via=Google Books}}</ref>
==Bibliography==
{{Wikisource author}}
*1971. ''Selected Writings of Hermann von Helmholtz''. Kahl, Russell, ed. Wesleyan Uni. Press.
*1977. ''Helmholtz: Epistemological Writings''. Cohen, Robert, and Wartofsky, Marx, eds. and trans. Reidel.
*Ewald, William B., ed., 1996. ''From Kant to Hilbert: A Source Book in the Foundations of Mathematics'', 2 vols. Oxford Uni. Press.
**1876. "The origin and meaning of geometrical axioms," 663-88.
**1878. "The facts in perception," 698-726.
**1887. "Numbering and measuring from an epistemological viewpoint," 727-52.
*Leo Koenigsberger, translated by Frances A. Welby ''Hermann von Helmholtz'' (Dover, 1965)


In 1871, Helmholtz moved from Heidelberg to Berlin to become a professor of physics. He became interested in [[electromagnetism]], and the [[Helmholtz equation]] is named for him. Although he did not make major contributions to this field, his student [[Heinrich Rudolf Hertz]] became famous as the first to demonstrate [[electromagnetic radiation]]. [[Oliver Heaviside]] criticised Helmholtz's electromagnetic theory because it allowed the existence of [[longitudinal wave]]s. Based on work on [[Maxwell's equations]], Heaviside pronounced that longitudinal waves could not exist in a vacuum or a homogeneous medium. Heaviside did not note, however, that longitudinal electromagnetic waves can exist at a boundary or in an enclosed space.<ref>John D. Jackson, Classical Electrodynamics, {{ISBN|0-471-30932-X}}.</ref>
==External links==
* "[http://books.google.com/books?vid=0CZkDzy7hqYWpJVqcWCZAHZ&id=5aUOAAAAIAAJ&pg=PT17 Hermann von Helmholtz]" (Obituary). Royal Society (Great Britain). (1854). Proceedings of the Royal Society of London. London: Printed by Taylor and Francis.
*{{MacTutor|id=Helmholtz}}
*''[http://www.bartleby.com/30/125.html On the Conservation of Force]'' Introduction to a Series of Lectures Delivered at Carlsruhe in the Winter of 1862–1863, English translation
*''[http://www.psych.upenn.edu/backuslab/helmholtz/index.html Treatise on Physiological Optics]'' 1910, three volumes. English translation by Optical Society of America (1924-5).
* [http://vlp.mpiwg-berlin.mpg.de/people/data?id=per87 Biography and bibliography] in the Virtual Laboratory of the [[Max Planck Institute for the History of Science]]


==Philosophy==


Helmholtz scientific work in physiology and mechanics occasioned much that he is known for in [[philosophy of science]], including ideas on the relation between the laws of perception and the [[physical law|laws of nature]] and his rejection of the exclusive use of [[Euclidean_geometry|Euclidean geometry]].<ref>{{cite journal |last1=Helmholtz |first1=Hermann von |last2= |first2= |date=1977 |title=On the origin and significance of the axioms of geometry |url=https://link.springer.com/content/pdf/10.1007/978-94-010-1115-0_1?pdf=chapter%20toc |journal=Boston Studies in the Philosophy of Science |volume=37 |issue= |pages=1-38 |doi= |access-date=13 October 2024}}</ref>
<!-- Metadata: see [[Wikipedia:Persondata]] -->

{{Persondata
His philosophy of science wavered between some version of [[empiricism]] and [[transcendentalism]].<ref>{{cite journal
|NAME= Helmholtz, Hermann von
|last1=De Kock
|ALTERNATIVE NAMES=
|first1=Liesbet
|SHORT DESCRIPTION= [[Physicist]] and [[physiologist]]
|date=2018
|DATE OF BIRTH= [[August 31]], [[1821]]
|title=Historicizing Hermann von Helmholtz's Psychology of Differentiation
|PLACE OF BIRTH= [[Potsdam]], [[Germany]]
|url=https://jhaponline.org/jhap/article/view/3432
|DATE OF DEATH= [[September 8]], [[1894]]
|access-date=1 January 2022
|PLACE OF DEATH= [[Charlottenburg]], [[Berlin]], [[Germany]]
|journal= Journal for the History of Analytical Philosophy
|volume= 6
|issue= 3
|pages=
|doi=10.15173/jhap.v6i3.3432
|s2cid=187618324
|quote=Hermann von Helmholtz's peculiar wavering between empiricism and transcendentalism in his philosophy of science in general, and in his theory of perception in particular, is a much debated and well-documented topic in the history and philosophy of science.
|doi-access=free|hdl=1854/LU-8552480|hdl-access=free}}</ref> Despite the speculative associations of the latter, his philosophy of science is thoroughly indebted to his use of mathematical physics to supplant vitalism and articulate the general conservation of energy principle.<ref name="Patton"/>

His rejection of Euclidean geometry as the only possible science of space is central to understanding his appropriation of Kant's philosophy of space, which ostensibly requires Euclidean geometry to be that exclusive ''a priori'' science of [[physical space]]. Helmholtz introduced a new conception of the ''a priori'' in space: that of the determination of the manifold of possible orientations in perceptual space. These developments inspired new readings of Kant<ref name="Patton"/> and contributed to the rise of late modern [[Neo-Kantianism|neo-Kantianism]] movement in philosophy.

== Students and associates ==

Other students and research associates of Helmholtz at Berlin included [[Max Planck]], [[Heinrich Kayser]], [[Eugen Goldstein]], [[Wilhelm Wien]], [[Arthur König]], [[Henry Augustus Rowland]], [[Albert A. Michelson]], [[Wilhelm Wundt]], [[Fernando Sanford]] and [[Michael I. Pupin]]. [[Leo Koenigsberger]], who was his colleague from 1869 to 1871 in Heidelberg, wrote the definitive biography of him in 1902.

== Honours and legacy ==
[[Image:Hermann von Helmholtz-Statue vor der Humboldt-Universität zu Berlin.jpg|thumb|upright|Helmholtz's statue in front of Humboldt University in Berlin]]

* In 1873, Helmholtz was elected as a member of the [[American Philosophical Society]].<ref>{{Cite web|title=APS Member History|url=https://search.amphilsoc.org/memhist/search?creator=&title=&subject=&subdiv=&mem=&year=1873&year-max=1873&dead=&keyword=&smode=advanced|access-date=3 May 2021|website=search.amphilsoc.org}}</ref>
*In 1881, Helmholtz was elected [[Fellowship of the Royal College of Surgeons|Honorary Fellow]] of the [[Royal College of Surgeons in Ireland]].<ref>{{cite web|url=http://www.igp-web.com/IGPArchives/ire/countrywide/xmisc/rcsi-hon-fellows.txt|title=Honorary Fellows of the Royal College of Surgeons (RCSI) since 1784|publisher=Ireland Genealogy Project|year=2013|access-date=4 August 2016|archive-url=https://web.archive.org/web/20180203005705/http://www.igp-web.com/IGPArchives/ire/countrywide/xmisc/rcsi-hon-fellows.txt|archive-date=3 February 2018|url-status=dead}}</ref>
* On 10 November 1881, he was awarded the [[Legion of Honour|Légion d'honneur]]: au grade de Commandeur, or Level 3 – a senior grade. (No. 2173).
* In 1883, Professor Helmholtz was honoured by the Emperor, being raised to the nobility, or ''Adel''. The ''Adelung'' meant that he and his family were now styled: '''von''' Helmholtz. The distinction was not a peerage or title, but it was hereditary and conferred a certain social cachet.
* Helmholtz was conferred with Honorary Membership of the [[Institution of Engineers and Shipbuilders in Scotland]] in 1884.<ref>{{cite web|url=http://www.iesis.org/honorary-fellows.html|title=Honorary Members and Fellows|publisher=The Institution of Engineers and Shipbuilders in Scotland}}</ref>
* The largest German association of [[research institution]]s, the [[Helmholtz Association of German Research Centres|Helmholtz Association]], is named after him.<ref name="Gemeinschaft"/><ref name=History>{{cite web|title=History of the name in the About section of Helmholtz Association website |url=http://www.helmholtz.de/en/about_us/history |access-date=30 April 2012 |url-status=dead |archive-url=https://web.archive.org/web/20120414190640/http://www.helmholtz.de/en/about_us/history/ |archive-date=14 April 2012 }}</ref>
* The asteroid [[11573 Helmholtz]] and the lunar crater ''[[Helmholtz (lunar crater)|Helmholtz]]'' as well as the crater ''[[Helmholtz (Martian crater)|Helmholtz]]'' on Mars were named in his honour.<ref name="Asteroid" /><ref>{{GPN|2438|name=Lunar crater Helmholtz}}</ref><ref>{{GPN|2439|name=Martian crater Helmholtz}}</ref>
* In [[Charlottenburg]], [[Berlin]], the street ''Helmholtzstraße'' is named after von Helmholtz.<ref>{{cite web |url=https://www.berlin.de/ba-charlottenburg-wilmersdorf/ueber-den-bezirk/freiflaechen/strassen/artikel.177427.php |title=Helmholtzstraße |access-date=18 July 2018 |website=berlin.de |date=21 September 2014 }}</ref>

{{multiple image
|align=left
|footer=Decree awarding Helmholtz (listed in first page) the [[French Legion of Honour]]
|image1=French Presidential Decree -Award of Legion of Honour to Helholtz, Bell and Edison -10 November 1881 Pg. 1.jpg
|width1= 160
|image2=French Presidential Decree -Award of Legion of Honour to Helholtz, Bell and Edison -10 November 1881 Pg. 3.jpg
|width2= 160
|image3=French Presidential Decree -Award of Legion of Honour to Helholtz, Bell and Edison -10 November 1881 Pg. 5.jpg
|width3= 136
}}
}}
{{clear}}

== Works ==
* {{Cite book|title=Über die Erhaltung der Kraft|volume=|publisher=Wilhelm Engelmann|location=Leipzig|year=1889|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=6555455}}
* {{Cite book|title=Vorlesungen über die elektromagnetische Theorie des Lichts|volume=|publisher=Johann Ambrosius Barth|location=Leipzig|year=1897|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=6723936}}
* {{Cite book|title=Vorlesungen über die mathematischen Principien der Akustik|volume=|publisher=Johann Ambrosius Barth|location=Leipzig|year=1898|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=6725127}}
* {{Cite book|title=Vorlesungen über die Dynamik discreter Massenpunkte|volume=|publisher=Johann Ambrosius Barth|location=Leipzig|year=1898|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=6725946}}
* {{Cite book|title=Dynamik continuirlich verbreiteter Massen|volume=|publisher=Johann Ambrosius Barth|location=Leipzig|year=1902|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=6727137}}
* {{Cite book|title=Vorlesungen über die Theorie der Wärme|volume=|publisher=Johann Ambrosius Barth|location=Leipzig|year=1903|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=7174058}}
* {{Cite book|title=Vorlesungen über Theoretische Physik|volume=|publisher=Johann Ambrosius Barth|location=Leipzig|year=1903|language=de|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=7174058}}

===Translated works===
* ''[https://books.google.com/books?id=C1i4AAAAIAAJ&pg=PA114 On the Conservation of Force]'' (1847) [http://hdl.handle.net/2027/uc1.b4252190?urlappend=%3Bseq=124 HathiTrust]
* {{Cite book|title=Lehre von den Tonempfindungen als physiologische Grundlage für die Theorie der Musik|volume=|publisher=Masson|location=Paris|year=1874|language=fr|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=6723591}}
* {{cite journal |volume=16 |pages=15–39 |last=Helmholtz |first=Herman |title=On the Limits of the Optical Capacity of the Microscope |journal=Monthly Microscopical Journal |year=1876 |url=https://books.google.com/books?id=-DE4AAAAMAAJ&q=optics%20limit%20abbe%20fripp&pg=PA15 |doi=10.1111/j.1365-2818.1876.tb05606.x}}
* {{Cite book|title=Populäre wissenschaftliche Vorträge|volume=|publisher=Appleton|location=New York|year=1885|language=en|url=https://gutenberg.beic.it/webclient/DeliveryManager?pid=10984881}}
*''[http://www.bartleby.com/30/125.html On the Conservation of Force]'' (1895) Introduction to a Series of Lectures Delivered at [[Karlsruhe|Carlsruhe]] in the Winter of 1862–1863, English translation
*''[https://archive.org/details/onsensationsofto00helmrich On the Sensations of Tone as a Physiological Basis for the Theory of Music]'' (downloadable from California Digital Library) Third Edition of English Translation, based on Fourth German Edition of 1877, By Hermann von Helmholtz, Alexander John Ellis, Published by Longmans, Green, 1895, 576 pages
*''[https://archive.org/details/onsensationston01helmgoog <!-- quote=helmholtz. --> On the Sensations of Tone as a Physiological Basis for the Theory of Music]'' (downloadable from Google Books) Fourth Edition, By Hermann von Helmholtz, Alexander John Ellis, Published by Longmans, Green, 1912, 575 pages
*''[https://web.archive.org/web/20180927064524/http://poseidon.sunyopt.edu/BackusLab/Helmholtz/ Treatise on Physiological Optics]'' (1910) three volumes. English translation by Optical Society of America (1924–25).
*''[https://archive.org/details/popularlectureso00helmuoft Popular lectures on scientific subjects]'' (1885)
*''[https://archive.org/details/popularlectureso00helmrich Popular lectures on scientific subjects]'' second series (1908)

== See also ==
* [[Helmholtz coil]]
* [[List of people from Berlin]]
* [[List of things named after Hermann von Helmholtz]]
* [[Neo-Kantianism]]
* [[Theory of Colours]]

== References ==
=== Citations ===
{{reflist|refs=

<ref name="Asteroid">{{cite web
|title = 11573 Helmholtz (1993 SK3)
|website = [[Minor Planet Center]]
|url = https://www.minorplanetcenter.net/db_search/show_object?object_id=11573
|access-date = 2 February 2018}}</ref>

}} <!-- end of reflist -->

=== Sources ===
* Cahan, David ''Helmholtz: A Life in Science.'' University of Chicago Press, 2018. {{ISBN|978-0-226-48114-2}}.
* Cohen, Robert, and [[Marx W. Wartofsky|Wartofsky, Marx]], eds. and trans. Reidel. ''Helmholtz: Epistemological Writings'', 1977.
* Ewald, William B., ed. ''From Kant to Hilbert: A Source Book in the Foundations of Mathematics'', 2 vols. Oxford Uni. Press, 1996.
** 1876. "The origin and meaning of geometrical axioms", 663–88.
** 1878. "The facts in perception", 698–726.
** 1887. "Numbering and measuring from an epistemological viewpoint", 727–52.
* Groundwater, Jennifer. ''Alexander Graham Bell: The Spirit of Invention''. Calgary: Altitude Publishing, 2005. {{ISBN|1-55439-006-0}}.
* Jackson, Myles W. ''Harmonious Triads: Physicists, Musicians, and Instrument Makers in Nineteenth-Century Germany'' (MIT Press, 2006).
* Kahl, Russell, ed. Wesleyan. ''Selected Writings of Hermann von Helmholtz'', Uni. Press., 1971.
* Koenigsberger, Leo. ''Hermann von Helmholtz'', translated by Frances A. Welby (Dover, 1965)
* MacKenzie, Catherine. [https://books.google.com/books?id=iFOcw4lN_ZYC ''Alexander Graham Bell''.] Whitefish, Montana: Kessinger Publishing, 2003. {{ISBN|978-0-7661-4385-2}}. Retrieved 29 July 2009.
* Shulman, Seth. ''[[The Telephone Gambit]]: Chasing Alexander Bell's Secret''. New York: Norton & Company, 2008. {{ISBN|978-0-393-06206-9}}.

== Further reading ==
* David Cahan: ''Helmholtz: A Life in Science'' (University of Chicago, 2018). {{ISBN|978-0-226-48114-2}}
* David Cahan (Ed.): ''Hermann von Helmholtz and the Foundations of Nineteenth-Century Science.'' Univ. California, Berkeley 1994, {{ISBN|978-0-520-08334-9}}.
* Gregor Schiemann: ''Hermann von Helmholtz's Mechanism: The Loss of Certainty. A Study on the Transition from Classical to Modern Philosophy of Nature''. Dordrecht: Springer 2009, {{ISBN|978-1-4020-5629-1}}.
*[[Steven Shapin]], "A Theorist of (Not Quite) Everything" (review of [[David Cahan]], ''Helmholtz: A Life in Science'', University of Chicago Press, 2018, {{ISBN|978-0-226-48114-2}}, 937 pp.), ''[[The New York Review of Books]]'', vol. 66, no. 15 (10 October 2019), pp.&nbsp;29–31.
* Franz Werner: ''Hermann Helmholtz´ Heidelberger Jahre (1858–1871)''. (= Sonderveröffentlichungen des Stadtarchivs Heidelberg 8). Mit 52 Abbildungen. Berlin / Heidelberg (Springer) 1997.
* Kenneth L. Caneva: ''[https://mitpress.mit.edu/9780262045735/helmholtz-and-the-conservation-of-energy/ Helmholtz and the Conservation of Energy: Contexts of Creation and Reception]''. The MIT Press, Cambridge, MA, 2021, ISBN 978-0-262-04573-5

== External links ==
{{Wikiquote}}
{{Wikisource author}}
{{Commons category|Hermann von Helmholtz}}
* "[https://books.google.com/books?id=5aUOAAAAIAAJ&pg=PT17 Hermann von Helmholtz]" (Obituary). Royal Society (Great Britain). (1894). Proceedings of the Royal Society of London. London: Printed by Taylor and Francis.
* "[https://archive.org/details/hermannvonhelmho00koenrich Hermann von Helmholtz]" by Leo Koenigsberger (Oxford: Clarendon press, 1906) from [[Internet Archive]]
* "[http://plato.stanford.edu/entries/hermann-helmholtz Hermann von Helmholtz]" article by Lydia Patton, Stanford Encyclopedia of Philosophy
* {{FamilySearch|id=MG9M-XWN|title=Prof. Dr. Hermann Ludwig Ferdinand von Helmholtz}}
* {{MacTutor|id=Helmholtz}}
* J. G. McKendrick ''[https://archive.org/details/hermannludwig00mckeiala Hermann Ludwig Ferdinand von Helmholtz]'' (London : Unwin, 1899)
* [http://vlp.mpiwg-berlin.mpg.de/people/data?id=per87 Biography, bibliography and access to digital sources] in the [[Virtual Laboratory]] of the [[Max Planck Institute for the History of Science]]
* {{IMSLP|id=Helmholtz, Hermann von}} (''Die Lehre von den Tonempfindungen'')
* Helmholtz's (1867) [http://lhldigital.lindahall.org/cdm/ref/collection/color/id/10550 ''Handbuch der physiologischen Optik''] {{Webarchive|url=https://web.archive.org/web/20190412080803/http://lhldigital.lindahall.org/cdm/ref/collection/color/id/10550 |date=12 April 2019 }} – digital facsimile from the [[Linda Hall Library]]
* {{MathGenealogy|id=49057}}
* {{Librivox author |id=16353}}


{{Copley Medallists 1851-1900}}
[[Category:German physicists|Helmholtz, Hermann von]]
{{Authority control}}
[[Category:Thermodynamicists|Helmholtz, Hermann von]]
[[Category:History of neuroscience|Helmholtz, Hermann von]]
[[Category:Ophthalmologists|Helmholtz, Hermann von]]
[[Category:Biophysicists|Helmholtz, Hermann von]]
[[Category:German nobility|Helmholtz, Hermann von]]
[[Category:People from Potsdam|Helmholtz, Hermann von]]
[[Category:1821 births|Helmholtz, Hermann von]]
[[Category:1894 deaths|Helmholtz, Hermann von]]
[[Category:University of Bonn faculty|Helmholtz, Hermann von]]
[[Category:People with craters of the Moon named after them|Helmholtz, Hermann von]]


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[[Category:Foreign associates of the National Academy of Sciences]]
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[[Category:Academic staff of Heidelberg University]]
[[Category:Academic staff of the University of Königsberg]]
[[Category:Vision scientists]]
[[Category:Auditory scientists]]
[[Category:Physicians of the Charité]]
[[Category:Members of the Royal Society of Sciences in Uppsala]]

Latest revision as of 09:54, 10 November 2024

Hermann von Helmholtz
Born(1821-08-31)31 August 1821
Died8 September 1894(1894-09-08) (aged 73)
EducationMedicinisch-chirurgisches Friedrich-Wilhelm-Institut (MD)
Known for
Spouse
(m. 1861)
Children3
RelativesAnna Augusta Von Helmholtz-Phelan (grand-niece)
Awards
Scientific career
Fields
Institutions
ThesisDe fabrica systematis nervosi evertebratorum (1842)
Doctoral advisorJohannes Peter Müller
Doctoral students
Other notable students
Signature
Helmholtz's polyphonic siren, Hunterian Museum, Glasgow

Hermann Ludwig Ferdinand von Helmholtz (/ˈhɛlmhlts/; German: [ˈhɛʁ.man vɔn ˈhɛlmˌhɔlts]; 31 August 1821 – 8 September 1894; "von" since 1883) was a German physicist and physician who made significant contributions in several scientific fields, particularly hydrodynamic stability.[2] The Helmholtz Association, the largest German association of research institutions, is named in his honour.[3]

In the fields of physiology and psychology, Helmholtz is known for his mathematics concerning the eye, theories of vision, ideas on the visual perception of space, colour vision research, the sensation of tone, perceptions of sound, and empiricism in the physiology of perception. In physics, he is known for his theories on the conservation of energy and on the electrical double layer, work in electrodynamics, chemical thermodynamics, and on a mechanical foundation of thermodynamics. Although credit is shared with Julius von Mayer, James Joule, and Daniel Bernoulli—among others—for the energy conservation principles that eventually led to the first law of thermodynamics, he is credited with the first formulation of the energy conservation principle in its maximally general form.[4]

As a philosopher, he is known for his philosophy of science, ideas on the relation between the laws of perception and the laws of nature, the science of aesthetics, and ideas on the civilizing power of science. By the late nineteenth century, Helmholtz's development of a broadly Kantian methodology, including the a priori determination of the manifold of possible orientations in perceptual space, had inspired new readings of Kant[4] and contributed to the late modern neo-Kantianism movement in philosophy.[5]

Biography

[edit]

Early years

[edit]

Helmholtz was born in Potsdam, the son of the local gymnasium headmaster, Ferdinand Helmholtz, who had studied classical philology and philosophy, and who was a close friend of the publisher and philosopher Immanuel Hermann Fichte. Helmholtz's work was influenced by the philosophy of Johann Gottlieb Fichte and Immanuel Kant. He tried to trace their theories in empirical matters like physiology.

As a young man, Helmholtz was interested in natural science, but his father wanted him to study medicine. Helmholtz earned a medical doctorate at Medicinisch-chirurgisches Friedrich-Wilhelm-Institute in 1842 and served a one-year internship at the Charité hospital[6] (because there was financial support for medical students).

Trained primarily in physiology, Helmholtz wrote on many other topics, ranging from theoretical physics to the age of the Earth, and to the origin of the Solar System.

University posts

[edit]

Helmholtz's first academic position was as a teacher of anatomy at the Academy of Arts in Berlin in 1848.[7] He then moved to take a post of associate professor of physiology at the Prussian University of Königsberg, where he was appointed in 1849. In 1855 he accepted a full professorship of anatomy and physiology at the University of Bonn. He was not particularly happy in Bonn, however, and three years later he transferred to the University of Heidelberg, in Baden, where he served as professor of physiology. In 1871 he accepted his final university position, as professor of physics at the Friedrich Wilhelm University in Berlin.

Research

[edit]
Helmholtz in 1848

Mechanics

[edit]

His first important scientific achievement, an 1847 treatise on the conservation of energy, was written in the context of his medical studies and philosophical background. His work on energy conservation came about while studying muscle metabolism. He tried to demonstrate that no energy is lost in muscle movement, motivated by the implication that there were no vital forces necessary to move a muscle. This was a rejection of the speculative tradition of Naturphilosophie and vitalism which was at that time a dominant philosophical paradigm in German physiology. He was working against the argument, promoted by some vitalists, that "living force" can power a machine indefinitely.[4]

Drawing on the earlier work of Sadi Carnot, Benoît Paul Émile Clapeyron and James Prescott Joule, he postulated a relationship between mechanics, heat, light, electricity and magnetism by treating them all as manifestations of a single force, or energy in today's terminology. He published his theories in his book Über die Erhaltung der Kraft (On the Conservation of Force, 1847).[8]

In the 1850s and 60s, building on the publications of William Thomson, Helmholtz and William Rankine helped popularize the idea of the heat death of the universe.

In fluid dynamics, Helmholtz made several contributions, including Helmholtz's theorems for vortex dynamics in inviscid fluids.

Sensory physiology

[edit]

Helmholtz was a pioneer in the scientific study of human vision and audition. Inspired by psychophysics, he was interested in the relationships between measurable physical stimuli and their correspondent human perceptions. For example, the amplitude of a sound wave can be varied, causing the sound to appear louder or softer, but a linear step in sound pressure amplitude does not result in a linear step in perceived loudness. The physical sound needs to be increased exponentially in order for equal steps to seem linear, a fact that is used in current electronic devices to control volume. Helmholtz paved the way in experimental studies on the relationship between the physical energy (physics) and its appreciation (psychology), with the goal in mind to develop "psychophysical laws".

The sensory physiology of Helmholtz was the basis of the work of Wilhelm Wundt, a student of Helmholtz, who is considered one of the founders of experimental psychology. More explicitly than Helmholtz, Wundt described his research as a form of empirical philosophy and as a study of the mind as something separate. Helmholtz had, in his early repudiation of Naturphilosophie, stressed the importance of materialism, and was focusing more on the unity of "mind" and body.[9]

Ophthalmic optics

[edit]

In 1851, Helmholtz revolutionized the field of ophthalmology with the invention of the ophthalmoscope; an instrument used to examine the inside of the human eye. This made him world-famous overnight. Helmholtz's interests at that time were increasingly focused on the physiology of the senses. His main publication, titled Handbuch der Physiologischen Optik (Handbook of Physiological Optics or Treatise on Physiological Optics; English translation of the 3rd volume here), provided empirical theories on depth perception, colour vision, and motion perception, and became the fundamental reference work in his field during the second half of the nineteenth century. In the third and final volume, published in 1867, Helmholtz described the importance of unconscious inferences for perception. The Handbuch was first translated into English under the editorship of James P. C. Southall on behalf of the Optical Society of America in 1924–5. His theory of accommodation went unchallenged until the final decade of the 20th century.

Helmholtz continued to work for several decades on several editions of the handbook, frequently updating his work because of his dispute with Ewald Hering who held opposite views on spatial and colour vision. This dispute divided the discipline of physiology during the second half of the 1800s.

Nerve physiology

[edit]

In 1849, while at Königsberg, Helmholtz measured the speed at which the signal is carried along a nerve fibre. At that time most people believed that nerve signals passed along nerves immeasurably fast.[10] He used a recently dissected sciatic nerve of a frog and the calf muscle to which it attached. He used a galvanometer as a sensitive timing device, attaching a mirror to the needle to reflect a light beam across the room to a scale which gave much greater sensitivity.[10] Helmholtz reported[11][12] transmission speeds in the range of 24.6 – 38.4 meters per second.[10]

Acoustics and aesthetics

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Last photograph of von Helmholtz, taken three days before his final illness
The Helmholtz resonator (i) and instrumentation

In 1863, Helmholtz published Sensations of Tone, once again demonstrating his interest in the physics of perception. This book influenced musicologists into the twentieth century. Helmholtz invented the Helmholtz resonator to identify the various frequencies or pitches of the pure sine wave components of complex sounds containing multiple tones.[13]

Helmholtz showed that different combinations of resonators could mimic vowel sounds: Alexander Graham Bell in particular was interested in this but, not being able to read German, misconstrued Helmholtz's diagrams as meaning that Helmholtz had transmitted multiple frequencies by wire—which would allow multiplexing of telegraph signals—whereas, in reality, electrical power was used only to keep the resonators in motion. Bell failed to reproduce what he thought Helmholtz had done but later said that, had he been able to read German, he would not have gone on to invent the telephone on the harmonic telegraph principle.[14][15][16][17]

Helmholtz in 1881, portrait by Ludwig Knaus

The translation by Alexander J. Ellis was first published in 1875 (the first English edition was from the 1870 third German edition; Ellis's second English edition from the 1877 fourth German edition was published in 1885; the 1895 and 1912 third and fourth English editions were reprints of the second).[18]

Electromagnetism

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Helmholtz studied the phenomena of electrical oscillations from 1869 to 1871, and in a lecture delivered to the Naturhistorisch-medizinischen Vereins zu Heidelberg (Natural History and Medical Association of Heidelberg) on 30 April 1869, titled On Electrical Oscillations he indicated that the perceptible damped electrical oscillations in a coil joined up with a Leyden jar were about 1/50th of a second in duration.[19]

In 1871, Helmholtz moved from Heidelberg to Berlin to become a professor of physics. He became interested in electromagnetism, and the Helmholtz equation is named for him. Although he did not make major contributions to this field, his student Heinrich Rudolf Hertz became famous as the first to demonstrate electromagnetic radiation. Oliver Heaviside criticised Helmholtz's electromagnetic theory because it allowed the existence of longitudinal waves. Based on work on Maxwell's equations, Heaviside pronounced that longitudinal waves could not exist in a vacuum or a homogeneous medium. Heaviside did not note, however, that longitudinal electromagnetic waves can exist at a boundary or in an enclosed space.[20]

Philosophy

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Helmholtz scientific work in physiology and mechanics occasioned much that he is known for in philosophy of science, including ideas on the relation between the laws of perception and the laws of nature and his rejection of the exclusive use of Euclidean geometry.[21]

His philosophy of science wavered between some version of empiricism and transcendentalism.[22] Despite the speculative associations of the latter, his philosophy of science is thoroughly indebted to his use of mathematical physics to supplant vitalism and articulate the general conservation of energy principle.[4]

His rejection of Euclidean geometry as the only possible science of space is central to understanding his appropriation of Kant's philosophy of space, which ostensibly requires Euclidean geometry to be that exclusive a priori science of physical space. Helmholtz introduced a new conception of the a priori in space: that of the determination of the manifold of possible orientations in perceptual space. These developments inspired new readings of Kant[4] and contributed to the rise of late modern neo-Kantianism movement in philosophy.

Students and associates

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Other students and research associates of Helmholtz at Berlin included Max Planck, Heinrich Kayser, Eugen Goldstein, Wilhelm Wien, Arthur König, Henry Augustus Rowland, Albert A. Michelson, Wilhelm Wundt, Fernando Sanford and Michael I. Pupin. Leo Koenigsberger, who was his colleague from 1869 to 1871 in Heidelberg, wrote the definitive biography of him in 1902.

Honours and legacy

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Helmholtz's statue in front of Humboldt University in Berlin
Decree awarding Helmholtz (listed in first page) the French Legion of Honour

Works

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  • Über die Erhaltung der Kraft (in German). Leipzig: Wilhelm Engelmann. 1889.
  • Vorlesungen über die elektromagnetische Theorie des Lichts (in German). Leipzig: Johann Ambrosius Barth. 1897.
  • Vorlesungen über die mathematischen Principien der Akustik (in German). Leipzig: Johann Ambrosius Barth. 1898.
  • Vorlesungen über die Dynamik discreter Massenpunkte (in German). Leipzig: Johann Ambrosius Barth. 1898.
  • Dynamik continuirlich verbreiteter Massen (in German). Leipzig: Johann Ambrosius Barth. 1902.
  • Vorlesungen über die Theorie der Wärme (in German). Leipzig: Johann Ambrosius Barth. 1903.
  • Vorlesungen über Theoretische Physik (in German). Leipzig: Johann Ambrosius Barth. 1903.

Translated works

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See also

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References

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Citations

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  1. ^ David Cahan (1993). Hermann Von Helmholtz and the Foundations of Nineteenth-Century Science. University of California Press. p. 198. ISBN 978-0-520-08334-9.
  2. ^ Bobba, Kumar Manoj (1 January 2004). Robust flow stability: Theory, computations and experiments in near-wall turbulence (Thesis). Bibcode:2004PhDT.......158B.
  3. ^ a b "The polymath with a sense of practice". Helmholtz-Gemeinschaft Deutscher Forschungszentren. Retrieved 4 October 2024.
  4. ^ a b c d e Patton, Lydia. "Hermann von Helmholtz." (2008), Stanford Encyclopedia of Philosophy.
  5. ^ Heis, Jeremy (2018). "Neo-Kantianism". Stanford Encyclopedia of Philosophy. Retrieved 6 October 2024. This movement drew inspiration from a diverse cast of philosophers—principally, Kuno Fischer (Fischer 1860), Hermann von Helmholtz (Helmholtz 1867, 1878), Friedrich Lange (Lange 1866), Otto Liebmann (Liebmann 1865), and Eduard Zeller (Zeller 1862))—who in the middle of the nineteenth century were calling for a return to Kant's philosophy as an alternative to both speculative metaphysics and materialism (Beiser 2014b).
  6. ^ R. S. Turner, In the Eye's Mind: Vision and the Helmholtz-Hering Controversy, Princeton University Press, 2014, p. 36.
  7. ^ Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783–2002 (PDF). The Royal Society of Edinburgh. July 2006. ISBN 0-902198-84-X. Archived from the original (PDF) on 24 January 2013. Retrieved 21 October 2016.
  8. ^ English translation published in Scientific memoirs, selected from the transactions of foreign academies of science, and from foreign journals: Natural philosophy (1853), p. 114; trans. by John Tyndall. Google Books, HathiTrust
  9. ^ Peter J. Bowler and Iwan Rhys Morus (2005). Making Modern Science: A Historical Survey. University of Chicago Press. p. 177. ISBN 978-0-226-06861-9.
  10. ^ a b c Glynn, Ian (2010). Elegance in Science. Oxford: Oxford University Press. pp. 147–150. ISBN 978-0-19-957862-7.
  11. ^ Helmholtz, Hermann von (1850).Vorläufiger Bericht über die Fortpflanzungs-Geschwindigkeit der Nervenreizung. In: Archiv für Anatomie, Physiologie und wissenschaftliche Medicin. Veit & Comp., pp. 71–73. MPIWG Berlin
  12. ^ Helmholtz, Hermann von (1850). Messungen über den zeitlichen Verlauf der Zuckung animalischer Muskeln und die Fortpflanzungsgeschwindigkeit der Reizung in den Nerven. In: Archiv für Anatomie, Physiologie und wissenschaftliche Medicin. Veit & Comp., pp. 276–364. MPIWG Berlin
  13. ^ von Helmholtz, Hermann (1885). On the sensations of tone as a physiological basis for the theory of music. Translated by Ellis, Alexander J. (Second English ed.). London: Longmans, Green, and Co. p. 44. Retrieved 12 October 2010.
  14. ^ "PBS, American Experience: The Telephone – More About Bell". PBS.
  15. ^ MacKenzie 2003, p. 41.
  16. ^ Groundwater 2005, p. 31.
  17. ^ Shulman 2008, pp. 46–48.
  18. ^ Hermann L. F. Helmholtz, M.D. (1912). On the Sensations of Tone as a Physiological Basis for the Theory of Music (Fourth ed.). Longmans, Green, and Co. ISBN 9781419178931.
  19. ^ Koenigsberger, Leo (28 March 2018). Hermann von Helmholtz. Clarendon press. ISBN 978-0-486-21517-4. Retrieved 28 March 2018 – via Google Books.
  20. ^ John D. Jackson, Classical Electrodynamics, ISBN 0-471-30932-X.
  21. ^ Helmholtz, Hermann von (1977). "On the origin and significance of the axioms of geometry". Boston Studies in the Philosophy of Science. 37: 1–38. Retrieved 13 October 2024.
  22. ^ De Kock, Liesbet (2018). "Historicizing Hermann von Helmholtz's Psychology of Differentiation". Journal for the History of Analytical Philosophy. 6 (3). doi:10.15173/jhap.v6i3.3432. hdl:1854/LU-8552480. S2CID 187618324. Retrieved 1 January 2022. Hermann von Helmholtz's peculiar wavering between empiricism and transcendentalism in his philosophy of science in general, and in his theory of perception in particular, is a much debated and well-documented topic in the history and philosophy of science.
  23. ^ "APS Member History". search.amphilsoc.org. Retrieved 3 May 2021.
  24. ^ "Honorary Fellows of the Royal College of Surgeons (RCSI) since 1784". Ireland Genealogy Project. 2013. Archived from the original on 3 February 2018. Retrieved 4 August 2016.
  25. ^ "Honorary Members and Fellows". The Institution of Engineers and Shipbuilders in Scotland.
  26. ^ "History of the name in the About section of Helmholtz Association website". Archived from the original on 14 April 2012. Retrieved 30 April 2012.
  27. ^ "11573 Helmholtz (1993 SK3)". Minor Planet Center. Retrieved 2 February 2018.
  28. ^ "Lunar crater Helmholtz". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  29. ^ "Martian crater Helmholtz". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  30. ^ "Helmholtzstraße". berlin.de. 21 September 2014. Retrieved 18 July 2018.

Sources

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  • Cahan, David Helmholtz: A Life in Science. University of Chicago Press, 2018. ISBN 978-0-226-48114-2.
  • Cohen, Robert, and Wartofsky, Marx, eds. and trans. Reidel. Helmholtz: Epistemological Writings, 1977.
  • Ewald, William B., ed. From Kant to Hilbert: A Source Book in the Foundations of Mathematics, 2 vols. Oxford Uni. Press, 1996.
    • 1876. "The origin and meaning of geometrical axioms", 663–88.
    • 1878. "The facts in perception", 698–726.
    • 1887. "Numbering and measuring from an epistemological viewpoint", 727–52.
  • Groundwater, Jennifer. Alexander Graham Bell: The Spirit of Invention. Calgary: Altitude Publishing, 2005. ISBN 1-55439-006-0.
  • Jackson, Myles W. Harmonious Triads: Physicists, Musicians, and Instrument Makers in Nineteenth-Century Germany (MIT Press, 2006).
  • Kahl, Russell, ed. Wesleyan. Selected Writings of Hermann von Helmholtz, Uni. Press., 1971.
  • Koenigsberger, Leo. Hermann von Helmholtz, translated by Frances A. Welby (Dover, 1965)
  • MacKenzie, Catherine. Alexander Graham Bell. Whitefish, Montana: Kessinger Publishing, 2003. ISBN 978-0-7661-4385-2. Retrieved 29 July 2009.
  • Shulman, Seth. The Telephone Gambit: Chasing Alexander Bell's Secret. New York: Norton & Company, 2008. ISBN 978-0-393-06206-9.

Further reading

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