Amos Dolbear


Amos Dolbear
Amos Dolbear, ca. 1880
Born(1837-11-10)November 10, 1837
DiedFebruary 23, 1910(1910-02-23) (aged 72)

Amos Emerson Dolbear (November 10, 1837 – February 23, 1910) was an American physicist and inventor. Dolbear researched electrical spark conversion into sound waves and electrical impulses. He was a professor at University of Kentucky in Lexington from 1868 until 1874. In 1874 he became the chair of the physics department at Tufts University in Medford, Massachusetts.[1] He is known for his 1882 invention of a system for transmitting telegraph signals without wires. In 1899 his patent for it was purchased in an unsuccessful attempt to interfere with Guglielmo Marconi's wireless telegraphy patents in the United States.


Dolbear was a graduate of Ohio Wesleyan University, in Delaware, Ohio. While a student at Ohio Wesleyan, he had made a "talking telegraph" and invented a receiver containing two features of the modern telephone: a permanent magnet and a metallic diaphragm that he made from a tintype. He invented the first telephone receiver with a permanent magnet in 1865, 11 years before Alexander Graham Bell patented his model. Later, Dolbear couldn't prove his claim, so Bell kept the patent. Dolbear lost his case before the U. S. Supreme Court, (Dolbear et al. v. American Bell Telephone Company). The June 18, 1881 edition of Scientific American reported:

"had [Dolbear] been observant of patent office formalities, it is possible that the speaking telephone, now so widely credited to Mr. Bell would be garnered among his own laurels."

In 1876, Dolbear patented a magneto electric telephone. He patented a static telephone in 1879.

In 1882, Dolbear was able to communicate over a distance of a quarter of a mile without wires in the Earth. His device relied on conduction in the ground, which was different from later radio transmissions that used electromagnetic radiation. He received a U.S. patent for a wireless telegraph in March of that year. His set-up used phones grounded by metal rods poked into the earth. His transmission range was at least as much as a half a mile[2] and he received a patent for this device, U.S. Patent 350,299, in 1886. (He did not patent his system in Europe.)

In 1899, The New England Wireless Telegraph and Telephone Company, a subsidiary of the American Wireless Telephone and Telegraph Company, purchased Dolbear's 1886 patent, and filed a suit against Marconi for infringement.[3] However, in March, 1901 a United States Circuit Court dismissed the suit.[4] In April, 1902, American Wireless petitioned Congress to extend the 1886 patent by ten years, but was unsuccessful, so it duly expired on October 4, 1903.[5] In 1905, the New York Circuit Court further noted that the Dolbear patent was "inoperative, and that, even if operative, it operates by virtue of radically different electrical laws and phenomena" than the radio signaling used by Marconi.[6]

In 1868 Dolbear (while a professor at Bethany College) invented the electrostatic telephone. He also invented the opeidoscope (an instrument for visualizing vibration of sound waves, using a mirror mounted on a membrane) and a system of incandescent lighting. He authored several books, articles, and pamphlets, and was recognized for his contributions to science at both the Paris Exposition in 1881 and the Crystal Palace Exposition in 1882.

In 1897, Dolbear published an article "The Cricket as a Thermometer" that noted the correlation between the ambient temperature and the rate at which crickets chirp. The formula expressed in that article became known as Dolbear's Law.


  • The Art of Projecting, Boston, 1876
  • The Speaking Telephone, 1877
  • Sound and its Phenomena, 1885
  • Matter, Ether, and Motion, Boston, 1892
  • First Principles of Natural Philosophy, Boston, 1897
  • Modes of Motion, Boston, 1897
Journal articles
  • "The Cricket as a Thermometer". The American Naturalist, Vol. 31, No. 371 (November 1897), pp. 970–971. Published by The University of Chicago Press for The American Society of Naturalists
  • "Apparatus for transmitting sound by electricity" U.S. Patent 239,742 April 5, 1881.


  1. ^ "Tufts Digital Library". Archived from the original on 2014-01-04. Retrieved 2014-04-14.
  2. ^ "Mode of Electric communication" U.S. Patent 350,299 October 5, 1886. Lines 51-55.
  3. ^ "A Suit Against Marconi", Washington Times, October 18, 1899, page 4.
  4. ^ "Suit Against Marconi Dismissed", New-York Daily Tribune, March 23, 1901, page 7.
  5. ^ "Petition of the American Wireless Telegraph and Telegraph Company, of Philadelphia, Pa., Praying the Extension for Ten Years of Letters Patent No. 350,299, Being the Basic Patent for the Art of Wireless Telegraphy and Telephony Granted to Amos Emerson Dolbear in 1886", United States Senate Documents, Volume 26 (4245), 57th Congress, 1st Session, Document No. 346, pages 1-3.
  6. ^ "Marconi Wireless Telegraph Co. of America v. De Forest Wireless Telegraph Co. (Circuit Court, S. D. New York. April 11, 1905.)", The Federal Reporter. Volume 138. Cases Argued and Determined in the Circuit Courts of Appeals and Circuit and District Courts of the United States. July–September, 1905, page 668.

External links

  • Works by Amos Dolbear at Project Gutenberg
  • Works by or about Amos Dolbear at Internet Archive
  • Concise Encyclopedia of Tufts History - Dolbear, Amos Emerson, 1837–1910
  • Just Who Did Invent Radio?
  • Roxbury's Professor Dolbear
  • A portrait of Prof. Dolbear