sub-fonds GB 0117 MS 365 - Faraday, Michael (1791-1867): glass furnaces

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Cote

GB 0117 MS 365

Titre

Faraday, Michael (1791-1867): glass furnaces

Date(s)

  • [c1791-1867] (Création/Production)

Niveau de description

sub-fonds

Étendue matérielle et support

1 volume

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Nom du producteur

Notice biographique

Faraday was born the son of a blacksmith in Newington Butts, Southwark. It is not known where he was educated as a child, but the family moved north near Manchester Square. At 13, he worked as a newspaper boy for George Riebau of Blandford Street. He then became an apprentice for seven years in bookbinding under Riebau. In 1810 and 1811, he attended lectures on science given by silversmith John Tatum (1772-1858) in the city of London and took notes. These were shown to the son of a Member of the Royal Institution of Great Britain (RI) who in turn showed them to the Member who was so impressed he gave Faraday tickets to see Humphry Davy (1778-1829) lecture at the RI in 1812. After writing to Davy to ask for a job, he was appointed as a chemical assistant at the laboratory at the RI in 1813. In 1813 he travelled with Davy to France as an assistant, secretary and valet; subsequently visiting laboratories in Italy, Switzerland and Germany until April 1815. In 1816 he began his 'Commonplace Book' and was elected Member of the City Philosophical Society from 1816 to 1819 giving lectures on chemical subjects. From 1816 to 1828, he published his work results in journals such as Quarterly Journal of Science, Philosophical Magazine and Philosophical Transactions of the Royal Society. In 1821 he was appointed Superintendent of the RI to maintain the building. In 1825 he was appointed Director of the Laboratory and in 1833 he became Fullerian Professor of Chemistry at the RI. In 1821 he discovered electro-magnetic rotations, the principle of the electric motor. In 1831 he discovered electro-magnetic induction; also in the early 1830s, he discovered the laws of electrolysis and coined words such as electrode, cathode, anode and ion. In 1845 he discovered the magneto-optical effect and diamagnetism developing the theory of the electromagnetic field. In 1824 he was elected to the Royal Society. He gave lectures at the RI between 1825 and 1862, establishing the Friday Evening Discourses and the Christmas Lectures for the young. In 1827 he delivered a course of lectures on chemical manipulation to the London Institution and he also gave lectures for medical students from St George's Hospital from the mid 1820s onwards. In 1829 he was appointed Scientific Adviser to the Admiralty. In 1830 he was Professor of Chemistry at the Royal Military Academy, Woolwich until 1851. In 1836 he was appointed Scientific Adviser to the Corporation of Trinity House, the English and Welsh lighthouse authority, until 1865. During the 1850s and 1860s, he introduced electricity to lighthouses under this position. In 1844 he conducted an enquiry with the geologist Charles Lyell (1797-1875), into the Haswell Colliery, County Durham, explosion.

Histoire archivistique

GB 0117 MS 365 [c1791-1867] Sub-fonds 1 volume Faraday , Michael , 1791-1867 , chemist and natural philosopher

Faraday was born the son of a blacksmith in Newington Butts, Southwark. It is not known where he was educated as a child, but the family moved north near Manchester Square. At 13, he worked as a newspaper boy for George Riebau of Blandford Street. He then became an apprentice for seven years in bookbinding under Riebau. In 1810 and 1811, he attended lectures on science given by silversmith John Tatum (1772-1858) in the city of London and took notes. These were shown to the son of a Member of the Royal Institution of Great Britain (RI) who in turn showed them to the Member who was so impressed he gave Faraday tickets to see Humphry Davy (1778-1829) lecture at the RI in 1812. After writing to Davy to ask for a job, he was appointed as a chemical assistant at the laboratory at the RI in 1813. In 1813 he travelled with Davy to France as an assistant, secretary and valet; subsequently visiting laboratories in Italy, Switzerland and Germany until April 1815. In 1816 he began his 'Commonplace Book' and was elected Member of the City Philosophical Society from 1816 to 1819 giving lectures on chemical subjects. From 1816 to 1828, he published his work results in journals such as Quarterly Journal of Science, Philosophical Magazine and Philosophical Transactions of the Royal Society. In 1821 he was appointed Superintendent of the RI to maintain the building. In 1825 he was appointed Director of the Laboratory and in 1833 he became Fullerian Professor of Chemistry at the RI. In 1821 he discovered electro-magnetic rotations, the principle of the electric motor. In 1831 he discovered electro-magnetic induction; also in the early 1830s, he discovered the laws of electrolysis and coined words such as electrode, cathode, anode and ion. In 1845 he discovered the magneto-optical effect and diamagnetism developing the theory of the electromagnetic field. In 1824 he was elected to the Royal Society. He gave lectures at the RI between 1825 and 1862, establishing the Friday Evening Discourses and the Christmas Lectures for the young. In 1827 he delivered a course of lectures on chemical manipulation to the London Institution and he also gave lectures for medical students from St George's Hospital from the mid 1820s onwards. In 1829 he was appointed Scientific Adviser to the Admiralty. In 1830 he was Professor of Chemistry at the Royal Military Academy, Woolwich until 1851. In 1836 he was appointed Scientific Adviser to the Corporation of Trinity House, the English and Welsh lighthouse authority, until 1865. During the 1850s and 1860s, he introduced electricity to lighthouses under this position. In 1844 he conducted an enquiry with the geologist Charles Lyell (1797-1875), into the Haswell Colliery, County Durham, explosion.

Notebook entitled 'Glass Furnace Notebook. Royal Institution' in Michael Faraday's hand.

Open

No publication without written permission. Apply to Archivist in the first instance.

English

Paper, bound, size 7.75 x 6.5 inches

See also MS/364, Optical Glass Committee, and MM.41.1

Copied from the Royal Society catalogue by Sarah Drewery.

General International Standard Archival Description, ISAD(G), second edition, 2000; National Council on Archives Rules for the Construction of Personal Place and Corporate Names 1997.

Feb 2009. Manufacturing industry Glass industry Facilities Glass manufacture Industrial facilities Furnaces Building materials Glass Industry Faraday , Michael , 1791-1867 , chemist and natural philosopher Royal Institution of Great Britain

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Notebook entitled 'Glass Furnace Notebook. Royal Institution' in Michael Faraday's hand.

Évaluation, élimination et calendrier de conservation

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Zone des conditions d'accès et d'utilisation

Conditions d'accès

Open

Conditions de reproduction

No publication without written permission. Apply to Archivist in the first instance.

Langue des documents

  • anglais

Écriture des documents

  • latin

Notes de langue et graphie

English

Caractéristiques matérielle et contraintes techniques

See also MS/364, Optical Glass Committee, and MM.41.1

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Identifiant du service d'archives

Royal Society

Règles et/ou conventions utilisées

General International Standard Archival Description, ISAD(G), second edition, 2000; National Council on Archives Rules for the Construction of Personal Place and Corporate Names 1997.

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Dates de production, de révision, de suppression

Langue(s)

  • anglais

Écriture(s)

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