fbpx
Wikipedia

Nicholas Callan

April 11, 2024

Nicholas Joseph Callan (22 December 1799 – 10 January 1864) was an Irish Catholic priest and physicist. He was professor of natural philosophy at Maynooth College in County Kildare from 1834, and is best known for his work on the induction coil.[1]

The Reverend

Nicholas Callan
Nicholas Callan
Born
Nicholas Joseph Callan

(1799-12-22)22 December 1799
Dundalk, County Louth, Ireland
Died10 January 1864(1864-01-10) (aged 64)
Maynooth, County Kildare, Ireland
NationalityIrish
CitizenshipBritish
Alma materMaynooth College
Sapienza University
Known forInvention of the induction coil
Scientific career
FieldsNatural philosophy
InstitutionsMaynooth College

Early life and education edit

He was born and raised in Dundalk, County Louth, where he attended school at an academy. His local parish priest, Father Andrew Levins, then took him in hand as an altar boy and Mass server, and saw him start the priesthood at Navan seminary. He entered Maynooth College in 1816. In his third year at Maynooth, Callan studied natural and experimental philosophy under Cornelius Denvir. He introduced the experimental method into his teaching, and had an interest in electricity and magnetism.[1]

Callan was ordained a priest in 1823 and went to Rome to study at Sapienza University, obtaining a doctorate in divinity in 1826. While in Rome he became acquainted with the work of the pioneers in electricity such as Luigi Galvani (1737–1798) who was a pioneer in bioelectricity and Alessandro Volta (1745–1827) who is known especially for the development of the electric battery. In 1826, Callan returned to Maynooth as the new professor of natural philosophy (now called physics), where he also began working with electricity in his basement laboratory at the college.[2]

Induction coil edit

Main article: Induction coil
 
Callan's Induction Coil at the National Science Museum, Maynooth

Influenced by William Sturgeon and Michael Faraday, Callan began work on the idea of the induction coil in 1834. He invented the first induction coil in 1836.[3][4][5] An induction coil produces an intermittent high-voltage alternating current from a low-voltage direct current supply. It has a primary coil consisting of a few turns of thick wire wound around an iron core and subjected to a low voltage (usually from a battery). Wound on top of this is a secondary coil made up of many turns of thin wire. An iron armature and make-and-break mechanism repeatedly interrupts the current to the primary coil, producing a high-voltage, rapidly alternating current in the secondary circuit.

Callan invented the induction coil because he needed to generate a higher level of electricity than currently available. He took a bar of soft iron, about 2 feet (0.61 m) long, and wrapped it around with two lengths of copper wire, each about 200 feet (61 m) long. Callan connected the beginning of the first coil to the beginning of the second. Finally, he connected a battery, much smaller than the enormous contrivance just described, to the beginning and end of winding one. He found that when the battery contact was broken, a shock could be felt between the first terminal of the first coil and the second terminal of the second coil.

Further experimentation showed how the coil device could bring the shock from a small battery up the strength level of a big battery. So, Callan tried making a bigger coil. With a battery of only 14 seven-inch (178 mm) plates, the device produced power enough for an electric shock "so strong that a person who took it felt the effects of it for several days." Callan thought of his creation as a kind of electromagnet; but what he actually made was a primitive induction transformer.

Callan's induction coil also used an interrupter that consisted of a rocking wire that repeatedly dipped into a small cup of mercury (similar to the interrupters used by Charles Page). Because of the action of the interrupter, which could make and break the current going into the coil, he called his device the "repeater." Actually, this device was the world's first transformer.[6] Callan had induced a high voltage in the second wire, starting with a low voltage in the adjacent first wire. And the faster he interrupted the current, the bigger the spark. In 1837 he produced his giant induction machine: using a mechanism from a clock to interrupt the current 20 times a second, it generated 15-inch (380 mm) sparks, an estimated 60,000 volts and the largest artificial bolt of electricity then seen.

The 'Maynooth Battery' and other inventions edit

Callan experimented with designing batteries after he found the models available to him at the time to be insufficient for research in electromagnetism. The Year-book of Facts in Science and Art, published in 1849,[7] has an article titled "The Maynooth Battery" which begins "We noticed this new and cheap Voltaic Battery in the Year-book of Facts, 1848, p. 14,5. The inventor, the Rev. D. Callan, Professor of Natural Philosophy in Maynooth College, has communicated to the Philosophical Magazine, No. 219, some additional experiments, comparing the power of a cast-iron (or Maynooth) battery with that of a Grove's of equal size." Some previous batteries had used rare metals such as platinum or unresponsive materials like carbon and zinc. Callan found that he could use inexpensive cast-iron instead of platinum or carbon. For his Maynooth battery he used iron casting for the outer casing and placed a zinc plate in a porous pot (a pot that had an inside and outside chamber for holding two different types of acid) in the centre. Using a single fluid cell he disposed of the porous pot and two different fluids. He was able to build a battery with just a single solution.

While experimenting with batteries, Callan also built the world's largest battery at that time. To construct this battery, he joined 577 individual batteries ("cells"), which used over 30 gallons of acid.[8] Since instruments for measuring current or voltages had not yet been invented, Callan measured the strength of a battery by measuring how much weight his electromagnet could lift when powered by the battery. Using his giant battery, Callan's electromagnet lifted 2 tons.[9] The Maynooth battery went into commercial production in London. Callan also discovered an early form of galvanisation to protect iron from rusting when he was experimenting on battery design, and he patented the idea.[10]

He died in 1864 and is buried in the cemetery in St. Patrick's College, Maynooth.

Legacy edit

The Callan Building on the north campus of NUI Maynooth, a university which was part of St Patrick's College until 1997, was named in his honour. In addition, Callan Hall in the south campus, was used through the 1990s for first year science lectures including experimental & mathematical physics, chemistry and biology. The Nicholas Callan Memorial Prize is an annual prize awarded to the best final year student in Experimental Physics.

Publications edit

  • Electricity and Galvanism (introductory textbook), 1832

See also edit

References edit

  1. ^ a b Boylan, Henry (1998). A Dictionary of Irish Biography, 3rd Edition. Dublin: Gill and MacMillan. p. 55. ISBN 0-7171-2945-4.
  2. ^ [1] Reville, William. Nicholas Callan: Priest Scientist at Maynooth. The Irish Times, 21 February 2002.
  3. ^ Callan, N.J. (December 1836) "On a new Galvanic battery," Philosophical Magazine, series 3, vol. 9, pages 472–478; see especially page 477.
  4. ^ Callan, N.J. (April 1837) "A description of an electromagnetic repeater, or of a machine by which the connection between the voltaic battery and the helix of an electromagnet may be broken and renewed several thousand times in the space of one minute," Sturgeon's Annals of Electricity, vol. 1, pages 229–230 and Fig. 52 on page 522.
  5. ^ Stanley A. Czarnik (March 1992) "The classic induction coil," Popular Electronics, pages (?). Available on-line at: . Archived from the original on 30 October 2016. Retrieved 22 April 2016. .
  6. ^ Guarnieri, Massimo. "Who Invented the Transformer?". ResearchGate. Retrieved 13 September 2019.
  7. ^ The Year-book of Facts in Science and Art (p.156), 1849, John Timbs
  8. ^ Nicholas Callan (July 1848) "On the construction and power of a new form of Galvanic battery," Philosophical Magazine, series 3, vol. 33, no. 219, pages 49–53.
  9. ^ M.T. Casey (December 1985) "Nicholas Callan – priest, professor and scientist," IEE Proceedings, vol. 132, pt. A, no. 8, pages 491–497; see especially page 492. Available on-line at: http://eprints.nuim.ie/1767/1/CaseyCallan.pdf .
  10. ^ Callan, Nicholas, "A means of protecting iron of every kind against the action of the weather and of various corroding substances so that iron thus protected will answer for roofing, cisterns, baths, gutters, pipes, window-frames, telegraph-wires for marine and various other purposes," British patent no. 2340 (filed: 12 October 1853; issued: 25 November 1853). See: The Mechanics' Magazine, vol. 59, no. 1576, pages 337–338 (22 October 1853).

Notes edit

  • O'Hara, James G.Callan, Nicholas Joseph (1799–1864), Oxford Dictionary of National Biography, Oxford University Press, 2004
  • Biography at corrosion-doctors.org

External links edit

  • Nicholas Callan at the
  • Works by Nicholas Callan at LibriVox (public domain audiobooks)   (his translations)

April 11, 2024
nicholas, callan, nicholas, joseph, callan, december, 1799, january, 1864, irish, catholic, priest, physicist, professor, natural, philosophy, maynooth, college, county, kildare, from, 1834, best, known, work, induction, coil, reverendbornnicholas, joseph, cal. Nicholas Joseph Callan 22 December 1799 10 January 1864 was an Irish Catholic priest and physicist He was professor of natural philosophy at Maynooth College in County Kildare from 1834 and is best known for his work on the induction coil 1 The ReverendNicholas CallanNicholas CallanBornNicholas Joseph Callan 1799 12 22 22 December 1799Dundalk County Louth IrelandDied10 January 1864 1864 01 10 aged 64 Maynooth County Kildare IrelandNationalityIrishCitizenshipBritishAlma materMaynooth CollegeSapienza UniversityKnown forInvention of the induction coilScientific careerFieldsNatural philosophyInstitutionsMaynooth College Contents 1 Early life and education 2 Induction coil 3 The Maynooth Battery and other inventions 4 Legacy 5 Publications 6 See also 7 References 8 Notes 9 External linksEarly life and education editHe was born and raised in Dundalk County Louth where he attended school at an academy His local parish priest Father Andrew Levins then took him in hand as an altar boy and Mass server and saw him start the priesthood at Navan seminary He entered Maynooth College in 1816 In his third year at Maynooth Callan studied natural and experimental philosophy under Cornelius Denvir He introduced the experimental method into his teaching and had an interest in electricity and magnetism 1 Callan was ordained a priest in 1823 and went to Rome to study at Sapienza University obtaining a doctorate in divinity in 1826 While in Rome he became acquainted with the work of the pioneers in electricity such as Luigi Galvani 1737 1798 who was a pioneer in bioelectricity and Alessandro Volta 1745 1827 who is known especially for the development of the electric battery In 1826 Callan returned to Maynooth as the new professor of natural philosophy now called physics where he also began working with electricity in his basement laboratory at the college 2 Induction coil editMain article Induction coil nbsp Callan s Induction Coil at the National Science Museum MaynoothInfluenced by William Sturgeon and Michael Faraday Callan began work on the idea of the induction coil in 1834 He invented the first induction coil in 1836 3 4 5 An induction coil produces an intermittent high voltage alternating current from a low voltage direct current supply It has a primary coil consisting of a few turns of thick wire wound around an iron core and subjected to a low voltage usually from a battery Wound on top of this is a secondary coil made up of many turns of thin wire An iron armature and make and break mechanism repeatedly interrupts the current to the primary coil producing a high voltage rapidly alternating current in the secondary circuit Callan invented the induction coil because he needed to generate a higher level of electricity than currently available He took a bar of soft iron about 2 feet 0 61 m long and wrapped it around with two lengths of copper wire each about 200 feet 61 m long Callan connected the beginning of the first coil to the beginning of the second Finally he connected a battery much smaller than the enormous contrivance just described to the beginning and end of winding one He found that when the battery contact was broken a shock could be felt between the first terminal of the first coil and the second terminal of the second coil Further experimentation showed how the coil device could bring the shock from a small battery up the strength level of a big battery So Callan tried making a bigger coil With a battery of only 14 seven inch 178 mm plates the device produced power enough for an electric shock so strong that a person who took it felt the effects of it for several days Callan thought of his creation as a kind of electromagnet but what he actually made was a primitive induction transformer Callan s induction coil also used an interrupter that consisted of a rocking wire that repeatedly dipped into a small cup of mercury similar to the interrupters used by Charles Page Because of the action of the interrupter which could make and break the current going into the coil he called his device the repeater Actually this device was the world s first transformer 6 Callan had induced a high voltage in the second wire starting with a low voltage in the adjacent first wire And the faster he interrupted the current the bigger the spark In 1837 he produced his giant induction machine using a mechanism from a clock to interrupt the current 20 times a second it generated 15 inch 380 mm sparks an estimated 60 000 volts and the largest artificial bolt of electricity then seen The Maynooth Battery and other inventions editCallan experimented with designing batteries after he found the models available to him at the time to be insufficient for research in electromagnetism The Year book of Facts in Science and Art published in 1849 7 has an article titled The Maynooth Battery which begins We noticed this new and cheap Voltaic Battery in the Year book of Facts 1848 p 14 5 The inventor the Rev D Callan Professor of Natural Philosophy in Maynooth College has communicated to the Philosophical Magazine No 219 some additional experiments comparing the power of a cast iron or Maynooth battery with that of a Grove s of equal size Some previous batteries had used rare metals such as platinum or unresponsive materials like carbon and zinc Callan found that he could use inexpensive cast iron instead of platinum or carbon For his Maynooth battery he used iron casting for the outer casing and placed a zinc plate in a porous pot a pot that had an inside and outside chamber for holding two different types of acid in the centre Using a single fluid cell he disposed of the porous pot and two different fluids He was able to build a battery with just a single solution While experimenting with batteries Callan also built the world s largest battery at that time To construct this battery he joined 577 individual batteries cells which used over 30 gallons of acid 8 Since instruments for measuring current or voltages had not yet been invented Callan measured the strength of a battery by measuring how much weight his electromagnet could lift when powered by the battery Using his giant battery Callan s electromagnet lifted 2 tons 9 The Maynooth battery went into commercial production in London Callan also discovered an early form of galvanisation to protect iron from rusting when he was experimenting on battery design and he patented the idea 10 He died in 1864 and is buried in the cemetery in St Patrick s College Maynooth Legacy editThe Callan Building on the north campus of NUI Maynooth a university which was part of St Patrick s College until 1997 was named in his honour In addition Callan Hall in the south campus was used through the 1990s for first year science lectures including experimental amp mathematical physics chemistry and biology The Nicholas Callan Memorial Prize is an annual prize awarded to the best final year student in Experimental Physics Publications editElectricity and Galvanism introductory textbook 1832See also editList of Catholic clergy scientistsReferences edit a b Boylan Henry 1998 A Dictionary of Irish Biography 3rd Edition Dublin Gill and MacMillan p 55 ISBN 0 7171 2945 4 1 Reville William Nicholas Callan Priest Scientist at Maynooth The Irish Times 21 February 2002 Callan N J December 1836 On a new Galvanic battery Philosophical Magazine series 3 vol 9 pages 472 478 see especially page 477 Callan N J April 1837 A description of an electromagnetic repeater or of a machine by which the connection between the voltaic battery and the helix of an electromagnet may be broken and renewed several thousand times in the space of one minute Sturgeon s Annals of Electricity vol 1 pages 229 230 and Fig 52 on page 522 Stanley A Czarnik March 1992 The classic induction coil Popular Electronics pages Available on line at The Classic Induction Coil Induction Coils HV Archived from the original on 30 October 2016 Retrieved 22 April 2016 Guarnieri Massimo Who Invented the Transformer ResearchGate Retrieved 13 September 2019 The Year book of Facts in Science and Art p 156 1849 John Timbs Nicholas Callan July 1848 On the construction and power of a new form of Galvanic battery Philosophical Magazine series 3 vol 33 no 219 pages 49 53 M T Casey December 1985 Nicholas Callan priest professor and scientist IEE Proceedings vol 132 pt A no 8 pages 491 497 see especially page 492 Available on line at http eprints nuim ie 1767 1 CaseyCallan pdf Callan Nicholas A means of protecting iron of every kind against the action of the weather and of various corroding substances so that iron thus protected will answer for roofing cisterns baths gutters pipes window frames telegraph wires for marine and various other purposes British patent no 2340 filed 12 October 1853 issued 25 November 1853 See The Mechanics Magazine vol 59 no 1576 pages 337 338 22 October 1853 Notes editO Hara James G Callan Nicholas Joseph 1799 1864 Oxford Dictionary of National Biography Oxford University Press 2004 Biography at corrosion doctors orgExternal links editNicholas Callan at the Science Museum Maynooth Works by Nicholas Callan at LibriVox public domain audiobooks nbsp his translations Retrieved from https en wikipedia org w index php title Nicholas Callan amp oldid 1198685026, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.