Johann Wilhelm Hittorf

Johann Wilhelm Hittorf (27 March 1824 – 28 November 1914) was a German physicist who made significant contributions to the study of electrical phenomena in gases. Among his most notable achievements was the discovery of cathode rays, a type of electron beam that is emitted from the cathode of a high-vacuum tube when an electric current is passed through it. Hittorf's work laid the groundwork for the development of atomic physics and the eventual discovery of the electron.

Early Life and Education

Johann Wilhelm Hittorf was born in Bonn, then part of the Kingdom of Prussia. He studied physics and chemistry at the University of Bonn and later at the University of Königsberg, where he was influenced by the work of Franz Ernst Neumann, a pioneer in the mathematical formulation of electromagnetism.

Career and Research

After completing his studies, Hittorf became a professor at the University of Münster, where he spent the majority of his academic career. His early research focused on electrolysis and the conductivity of electrolytes, which are substances that can conduct electricity when dissolved in water. Hittorf's investigations in this area led him to formulate Hittorf's laws of migration of ions, which describe how ions move through a solution during electrolysis.

In the 1860s, Hittorf turned his attention to the study of electrical discharges in gases. He was particularly interested in the glow that appears around the cathode when an electric current is passed through a gas at low pressure. Through meticulous experiments, Hittorf discovered that this glow was associated with the emission of rays from the cathode. These rays, which he called "cathode rays," were later shown to consist of streams of electrons. Hittorf's research on cathode rays contributed to the understanding of the atomic structure of matter and was instrumental in the development of X-ray technology and the field of atomic physics.

Legacy

Johann Wilhelm Hittorf's pioneering work in the study of electrical phenomena in gases and his discovery of cathode rays mark him as one of the founders of modern physics. His research opened up new avenues for scientific exploration and had a profound impact on the development of technology in the 20th century. Hittorf's contributions to the field of physics are commemorated by the Hittorf number, a dimensionless quantity used in the study of ion transport in electrolytes.

Selected Publications

• On the Migration of Ions during Electrolysis (1853)
• On the Conduction of Electricity in Gases (1869)

See Also

• Cathode rays
• Electron
• Electrolysis
• Atomic physics

References

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  Portrait of Johann Wilhelm Hittorf