Benjamin Robins

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Benjamin Robins (1707 – 29 July 1751) was a pioneering British scientist, Newtonian mathematician, and military engineer.

He wrote an influential treatise on gunnery, for the first time introducing Newtonian science to military men, was an early enthusiast for rifled gun barrels, and his work had substantive influence on the development of artillery during the latter half of the eighteenth century – and directly stimulated the teaching of calculus in military academies.

Early life[edit]

Benjamin Robins was born in Bath.[1] His parents were Quakers in poor circumstances, and as a result, he received very little formal education.[1] Having come to London on the advice of Dr. Henry Pemberton (1694–1771), who had recognised Robins's talents,[1] for a time he maintained himself by teaching mathematics, but soon devoted himself to engineering and the study of fortification.[2]

Scientific gunnery[edit]

In particular he carried out an extensive series of experiments in gunnery, embodying his results in his famous treatise on New Principles of Gunnery (1742),[3] which contains a description of his ballistic pendulum (see chronograph).[2]

Robins also made a number of important experiments on the resistance of the air to the motion of projectiles,[4][5][6] and on the force of gunpowder, with computation of the velocities thereby communicated to projectiles. He compared the results of his theory with experimental determinations of the ranges of mortars and cannon, and gave practical maxims for the management of artillery. He also made observations on the flight of rockets, and wrote on the advantages of rifled gun barrels. His work on gunnery was translated into German by Leonhard Euler, who added a critical commentary of his own.[2] However, the work of Robins still served as an important piece of technical information that helped the later advancement of the Prussian artillery, especially of its improvement in accuracy, a big step forwards that the book turned out to be a shot in the arm of the ambitious Frederick the Great who determined to vault the status and power of Prussian artillery to the top among other European armies.

Mathematics[edit]

Of less interest nowadays are Robins's more purely mathematical writings, such as his Discourse concerning the Nature and Certainty of Sir Isaac Newton's Methods of Fluxions and of Prime and Ultimate Ratios (1735), A Demonstration of the Eleventh Proposition of Sir Isaac Newton's Treatise of Quadratures (Phil. Trans., 1727),[7] and similar works.[2]

Politics[edit]

Besides his scientific labours, Robins took an active part in politics. He wrote pamphlets in support of the opposition to Sir Robert Walpole, and was secretary of a committee appointed by the House of Commons to enquire into the conduct of that minister. He also wrote a preface to the Report on the Proceedings of the Board of General Officers on their Examination into the Conduct of Lieutenant-General Sir John Cope, in which he gave an apology for the battle of Prestonpans.[2]

In 1749, he was appointed engineer general to the East India Company, and went out to superintend the reconstruction of their forts. However, his health soon failed, and he died at Fort St David in India. His works were published in two volumes in 1761.[2]

References[edit]

  1. ^ a b c Johnson, W. (July 1992). "Benjamin Robins, F.R.S. (1707–1751: New Details of His Life". Notes and Records of the Royal Society of London. Royal Society. 46 (2): 235–252. doi:10.1098/rsnr.1992.0024. JSTOR 531636. S2CID 71424677.
  2. ^ a b c d e f  One or more of the preceding sentences incorporates text from a publication now in the public domainChisholm, Hugh, ed. (1911). "Robins, Benjamin". Encyclopædia Britannica. Vol. 23 (11th ed.). Cambridge University Press. p. 422.
  3. ^ Robins, Benjamin (1742). "New Principles of Gunnery: Containing the Determination of the Force of Gun-powder, and an Investigation of the Difference in the Resisting Power of the Air to Swift and Slow Motions. With Several Other Tracts on the Improvement of Practical Gunnery".
  4. ^ Staff writer (2009). "Wind Tunnel : Planes, Flying and Aviation". Aviation Earth. Archived from the original on 6 September 2010. Retrieved 7 March 2016. English military Engineer and mathematician Benjamin Robins (1707–1751) invented a whirling arm apparatus to determine drag and did some of the first experiments in aviation theory.
  5. ^ "Wind Tunnels of NASA", Donald D. Baals and William R. Corliss
  6. ^ Steele, Brett (April 1994), "Muskets and Pendulums: Benjamin Robins, Leonhard Euler, and the Ballistics Revolution", Technology and Culture, Baltimore: The Johns Hopkins University Press, 35 (2): 348–382, doi:10.2307/3106305, ISSN 0040-165X, JSTOR 3106305
  7. ^ Robins, Benjamin; Newton, Isaac (1726). "Demonstration of the 11th Proposition of Sir Isaac Newton's Treatise of Quadratures. By Mr. Benjamin Robins, A". Philosophical Transactions. Royal Society. 34: 230–236. Bibcode:1726RSPT...34..230R. JSTOR 103483.

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