Heinrich Wilhelm Dove

Heinrich Wilhelm Dove
Born(1803-10-06)October 6, 1803
DiedApril 4, 1879(1879-04-04) (aged 75)
Berlin, Kingdom of Prussia, German Empire
NationalityGerman
Alma materUniversity of Berlin
University of Breslau
Scientific career
InstitutionsUniversity of Berlin
University of Königsberg

Heinrich Wilhelm Dove (6 October 1803 – 4 April 1879) was a Prussian physicist and meteorologist.

Early years

Dove was born in Liegnitz in the Kingdom of Prussia. Dove studied history, philosophy, and the natural sciences at the University of Breslau from 1821 until 1824. In 1824 he continued his education at the University of Berlin, finishing in 1826. In 1826, he became a Privatdozent and in 1828 a Professor extraordinarius at the University of Königsberg. In 1829, he moved to Berlin and taught at the Friedrich Wilhelm Gymnasium.

In 1845 he became a Professor ordinarius at the Friedrich-Wilhelms-Universität in Berlin, where he was elected rector in 1858–1859, and again in 1871–1872. In 1849 he also became the director of the Prussian Meteorological Institute.

During his career he published more than 300 papers, some of which delved into experimental physics. He also had an important influence over the science of meteorology, and was considered by some to be a pioneer in this field; Dove's primary meteorological focus was in climatology, a field pioneered by Alexander von Humboldt.

In 1828, Dove observed that tropical cyclones rotate counterclockwise in the Northern Hemisphere, but clockwise in the Southern.

In 1839 he discovered the technique of binaural beats, whereby slightly different frequencies played separately to each ear produced a perception of interference beats at the same rate as would be physically created.

In 1841 he published an invention he called the "differential inductor". It was a 4 coil induction balance, with 2 glass tubes each having 2 well insulated copper wire solenoids wound around them. Charged Leyden jars (high voltage capacitors) were discharged through the 2 primary coils, this current surge induced a voltage in the secondary coils. When the secondary coils were wired in opposition the induced voltages cancelled as confirmed by the Professor holding the ends of the secondary coils. When a piece of metal was placed inside one glass tube the Professor received a shock. This then was the first magnetic induction metal detector, and the first pulse induction metal detector.

He also studied the distribution of heat over the surface of the Earth, the effect of climate on the growth of plants, and was the first to measure the strength of an electric current in a wire induced by a collapsing magnetic field.

Affiliations and honors


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