narrow subject area

área

f.

1 area, surface, surface area.

2 domain, area, field, realm.

3 place, locality, region, area.

4 area, room, space.

* * *

área

(Takes el in sing)

► nombre femenino

1 (zona) area, zone

2 (medida) are

3 (superficie) area

\

FRASEOLOGÍA

área de castigo DEPORTE penalty area

área de gol DEPORTE goal area

área de servicio (en autopista) service area

* * *

noun f.

area

* * *

SF

1) (=zona, superficie) area

área de castigo — (Dep) penalty area

área de descanso — (Aut) rest area

área de gol, área de meta — goal area

área de penalty — (Dep) penalty area

área de servicio — (Aut) service area

2) (Inform)

área de excedentes — overflow area

3) (=campo)

en el área de los impuestos — in the field of taxation

4) (=medida) area ( 100 square metres)

5)

área metropolitana — metropolitan area, urban district

área verde — Caribe green area, park area

* * *

femenino‡ area

- área chica or pequeña

- área de castigo

- área de reposo

- área de servicio

- área metropolitana

* * *

= area, area, field, front, sphere, domain, zone, bit, radius, area, programme area, service area.

Ex. The area in which standards for bibliographic description have had the most impact is in catalogues and catalogue record data bases.

Ex. An area is a major section of the entry, comprising data of a particular category or serving a particular function.

Ex. An appreciation of alternative approaches is particularly important in this field where trends towards standardisation are the norm.

Ex. Present auguries on the resource front are not good.

Ex. I am not convinced that people become connoisseurs -- experts: educated and discriminating people in any sphere -- from limited knowledge and experience, no matter how rich in quality.

Ex. The CRONOS data bank includes a FISH domain, with data on catches and fleet statistics, and the COMEXT data bank covers the external trade statistics of fisheries.

Ex. But now the traditional industrial zone is declining and a new 'technopolis' is proposed for the area.

Ex. The assistant in charge of a section will see that their bit is kept tidy and will keep an eye open for thieves.

Ex. The fact that the library can only attract people within a relatively small radius means that it has no alternative but to serve whoever lives -- or works -- in that radius.

Ex. Libraries usually arrange separate areas where current periodicals, maps, government publications, early printed books and manuscripts are housed.

Ex. Now that financial stringencies were the order of the day, libraries had to compete with the more pressing needs of other programme areas, like education, social services, and housing, for dwindling resources.

Ex. The study examined the relative use of different service areas of the library = El estudio analizó al uso relativo de las diferentes zonas de la biblioteca.

----

* análisis de áreas del conocimiento = domain analysis.

* área chica, el = six-yard box, the.

* área clave = key area.

* área de acción = remit.

* área de actuación = area for action, area of policy, policy area.

* área de aplicación comercial = niche.

* área de aterrizaje = landing site, landing area.

* área de comunicación = communications area.

* área de conocimiento = area of study.

* área de conservación del patrimonio = heritage field.

* área de datos específicos de la clase de documento = material (or type of publication) specific details area.

* área de datos matemáticos = mathematical data area.

* área de descanso = rest area, rest stop, lay-by.

* área de descripción = area of description.

* área de descripción física = physical description area.

* área de edición = edition area.

* área de ejemplar = copy area.

* área de encabezamiento = header area.

* área de especialización = niche, area of competence.

* área de estudio = study area, study area.

* área de formación = teaching unit.

* área de influencia = remit.

* área de información = communications area.

* área de interés = field of interest.

* área de la biblioteconomía = library field.

* área del conocimiento = area of knowledge, discipline, subject field, field of activity, knowledge domain, discipline of knowledge.

* área de lectura = reading floor.

* área del número normalizado y de las condiciones de adquisición = International Standard Book Number and terms of availability area, standard number and terms of availability area.

* área de notas = note area.

* área de numeración de la ficha = card counter area.

* área de préstamo = checkout area.

* área de publicación = publication, distribution etc. area.

* area de publicación o distribución = imprint.

* área de serie = series area, series statement area.

* área de signatura topográfica = shelf list area.

* área de título y de mención de responsabilidad = title and statement of responsibility area.

* área en desarrollo = growth area.

* área específica = niche.

* área flotante del programa = transient program area (TPA).

* área geográfica = geographical area.

* área marginada = deprived area.

* area menos favorecida = less favoured area.

* área metropolitana = metropolitan area, metro area.

* área metropolitana de Londres, el = Greater London.

* área rural = rural region.

* área temática = subject area, subject field, topic area.

* area temática específica = narrow subject area.

* área urbana = urban area.

* área útil = floor area, floor space.

* bibliógrafo especializado en un área temática = area bibliographer.

* conocimiento de un área temática = area knowledge.

* empleado de línea aérea = airline official.

* en el área de + Lugar = Lugar + area.

* en las áreas de = in the areas of.

* especializado en un área temática = domain-specific.

* examen de área = area scanning.

* particular a un área = localised [localized, -USA].

* trabajador en el área de cultura = cultural worker.

* WAN (red de área amplia) = WAN (wide area network).

* * *

femenino‡ area

- área chica or pequeña

- área de castigo

- área de reposo

- área de servicio

- área metropolitana

* * *

= area, area, field, front, sphere, domain, zone, bit, radius, area, programme area, service area.

Ex: The area in which standards for bibliographic description have had the most impact is in catalogues and catalogue record data bases.

Ex: An area is a major section of the entry, comprising data of a particular category or serving a particular function.

Ex: An appreciation of alternative approaches is particularly important in this field where trends towards standardisation are the norm.

Ex: Present auguries on the resource front are not good.

Ex: I am not convinced that people become connoisseurs -- experts: educated and discriminating people in any sphere -- from limited knowledge and experience, no matter how rich in quality.

Ex: The CRONOS data bank includes a FISH domain, with data on catches and fleet statistics, and the COMEXT data bank covers the external trade statistics of fisheries.

Ex: But now the traditional industrial zone is declining and a new 'technopolis' is proposed for the area.

Ex: The assistant in charge of a section will see that their bit is kept tidy and will keep an eye open for thieves.

Ex: The fact that the library can only attract people within a relatively small radius means that it has no alternative but to serve whoever lives -- or works -- in that radius.

Ex: Libraries usually arrange separate areas where current periodicals, maps, government publications, early printed books and manuscripts are housed.

Ex: Now that financial stringencies were the order of the day, libraries had to compete with the more pressing needs of other programme areas, like education, social services, and housing, for dwindling resources.

Ex: The study examined the relative use of different service areas of the library = El estudio analizó al uso relativo de las diferentes zonas de la biblioteca.

* análisis de áreas del conocimiento = domain analysis.

* área chica, el = six-yard box, the.

* área clave = key area.

* área de acción = remit.

* área de actuación = area for action, area of policy, policy area.

* área de aplicación comercial = niche.

* área de aterrizaje = landing site, landing area.

* área de comunicación = communications area.

* área de conocimiento = area of study.

* área de conservación del patrimonio = heritage field.

* área de datos específicos de la clase de documento = material (or type of publication) specific details area.

* área de datos matemáticos = mathematical data area.

* área de descanso = rest area, rest stop, lay-by.

* área de descripción = area of description.

* área de descripción física = physical description area.

* área de edición = edition area.

* área de ejemplar = copy area.

* área de encabezamiento = header area.

* área de especialización = niche, area of competence.

* área de estudio = study area, study area.

* área de formación = teaching unit.

* área de influencia = remit.

* área de información = communications area.

* área de interés = field of interest.

* área de la biblioteconomía = library field.

* área del conocimiento = area of knowledge, discipline, subject field, field of activity, knowledge domain, discipline of knowledge.

* área de lectura = reading floor.

* área del número normalizado y de las condiciones de adquisición = International Standard Book Number and terms of availability area, standard number and terms of availability area.

* área de notas = note area.

* área de numeración de la ficha = card counter area.

* área de préstamo = checkout area.

* área de publicación = publication, distribution etc. area.

* area de publicación o distribución = imprint.

* área de serie = series area, series statement area.

* área de signatura topográfica = shelf list area.

* área de título y de mención de responsabilidad = title and statement of responsibility area.

* área en desarrollo = growth area.

* área específica = niche.

* área flotante del programa = transient program area (TPA).

* área geográfica = geographical area.

* área marginada = deprived area.

* area menos favorecida = less favoured area.

* área metropolitana = metropolitan area, metro area.

* área metropolitana de Londres, el = Greater London.

* área rural = rural region.

* área temática = subject area, subject field, topic area.

* area temática específica = narrow subject area.

* área urbana = urban area.

* área útil = floor area, floor space.

* bibliógrafo especializado en un área temática = area bibliographer.

* conocimiento de un área temática = area knowledge.

* empleado de línea aérea = airline official.

* en el área de + Lugar = Lugar + area.

* en las áreas de = in the areas of.

* especializado en un área temática = domain-specific.

* examen de área = area scanning.

* particular a un área = localised [localized, -USA].

* trabajador en el área de cultura = cultural worker.

* WAN (red de área amplia) = WAN (wide area network).

* * *

área

f‡

A

1 ( Mat) area

2 [ Vocabulary notes (Spanish) ] (medida agraria) area, square dekameter* ( 100m².)

B

1 (zona) area

las áreas más afectadas por las inundaciones the areas worst affected by the flooding

2 (campo, ámbito) area

un área de las ciencias donde ha habido poca investigación an area of science where little research has been carried out

3 ( Dep) tb

área de castigo or penalty penalty area

Compuestos:

● área chica

goal area

● área de reposo

rest area o stop ( AmE), lay-by ( BrE)

● área de servicio

service area, services (pl)

● área grande

penalty area

● área metropolitana

metropolitan area, city

● área pequeña

goal area

● área única de pagos en Europa

Single Euro Payments Area

* * *

 

área feminine noun taking masculine article in the singular
area;
área chica or pequeña goal area;

◊ área de castigo penalty area;

área de servicio service area, services (pl)
área sustantivo femenino
1 (espacio delimitado) area
área de servicio, service area
2 (medida de superficie) hundred square metres
3 (deportes) la falta se produjo dentro del área, the foul was committed inside the penalty area

' área' also found in these entries:
Spanish:
alrededor
- anticiclón
- antinuclear
- arrabal
- arrasar
- barriada
- barrio
- borrasca
- cabaña
- capítulo
- castigo
- circunscribirse
- comisionada
- comisionado
- concurrida
- concurrido
- construcción
- cuenca
- deprimida
- deprimido
- desarrollo
- expandir
- expolio
- extensión
- franca
- franco
- francófona
- francófono
- huerta
- inmediaciones
- interfluvio
- latitud
- milimétrica
- milimétrico
- órbita
- parcela
- poblada
- poblado
- polígono
- prefijo
- propia
- propio
- radio
- rellano
- sector
- superficie
- tendedero
- trascender
- triangular
- vasta
English:
area
- area code
- belt
- danger area
- demonstrate
- disaster area
- enter
- extent
- grey area
- industrial area
- lay-by
- mark out
- metropolitan
- penalty area
- penalty box
- province
- restricted
- service area
- unemployment
- well-known
- bay
- brief
- built
- canvass
- catchment area
- center
- central
- comb
- constituency
- country
- cover
- depot
- depressed
- develop
- development
- diverse
- division
- enclose
- enlarge
- extensive
- field
- fringe
- incoming
- living
- moor
- narrow
- neighborhood
- nice
- out
- over

* * *

área nf Takes the masculine articles el and un.

1. [zona] area

Comp

área de descanso [en carretera] Br lay-by, US rest area; Econ área (del) euro Euro zone; Econ área de libre comercio free trade area;

área metropolitana metropolitan area;

área protegida protected area;

área de servicio [en carretera] service area

2. [ámbito] area;

la investigación en áreas como la inteligencia artificial research in areas such as artificial intelligence;

una carrera del área de Ciencias a university course in a science subject;

el responsable del área económica del partido the person in charge of the party's economic policy

3. [medida] are, = 100 square metres

4. Geom [superficie] area

5. Dep

área (de penalty o [m5] castigo) (penalty) area

Comp

área grande eighteen-yard box, penalty area;

área pequeña six-yard box

* * *

área

f area;

área de influencia area of influence

* * *

área nf

: area

* * *

área n

1. (en general) area

el área mediterránea the Mediterranean area

el área de un rectángulo the area of a rectangle

2. (en fútbol) penalty area

area temática específica

(n.) = narrow subject area

Ex. Manual systems are more suited to circumstances where the index caters for a specialized and narrow subject area.

* * *

(n.) = narrow subject area

Ex: Manual systems are more suited to circumstances where the index caters for a specialized and narrow subject area.

específico

adj.

specific, particular, special.

* * *

específico

► adjetivo

1 specific

► nombre masculino específico

1 (medicamento) specific; (especialidad) patent medicine

\

FRASEOLOGÍA

peso específico specific gravity

————————

específico

► nombre masculino

1 (medicamento) specific; (especialidad) patent medicine

* * *

(f. - específica)

adj.

specific

* * *

1.

ADJ specific

2.

SM (Med) specific

* * *

I

- ca adjetivo

1) ( preciso) specific

2) (Farm, Med) specific

II

masculino specific

* * *

= given, individual, narrow [narrower -comp., narrowest -sup.], niche-specific, one, one-off, specific, single, bounded, determinate, particular, defined, designated, circumscribed, targeted, focused [focussed], narrowly focused.

Ex. The notation for any given geographical division varies between classes and between different parts of the same classes.

Ex. The series area includes the series title, an indication of the responsibility for the series (often series editors), and the number of the individual work within the series, if the work is one of a numbered series.

Ex. The subject areas which such data bases cover may range from relatively narrow subjects, to interdisciplinary areas.

Ex. The history and analysis of CCML presented here is quite subjective and specific to BRS, but does reflect the issues associated with producing a niche-specific database.

Ex. Note the different definitions, and the different boundaries for this one subject area.

Ex. Associated with full-time staffing reductions has been the virtual elimination of part-time teachers and ' one-off' expert lecturers.

Ex. Various publishers have reputations for specific styles, subject areas or works for specific audiences.

Ex. In other words, the elements of any single case may point to several concepts; in this sense, the cases are like icebergs -- more is hidden han appears on the surface.

Ex. This problem arises in real time multimedia applications, which often requires a guaranteed bandwidth and bounded delay to ensure that the quality of service is met = Este problema surge en las aplicaciones multimedia en tiempo real, que a menudo necesitan un ancho de banda garantizado y un retraso limitado para asegurar la calidad del servicio.

Ex. There is no coherent and determinate body of legal doctrine and the categories available for classifying legal problems simply mask the incoherency and indeterminacy of legal doctrine.

Ex. It is possible to identify an item uniquely within a particular institution or agency by a running accession number.

Ex. The Pearson correlation coefficient has been calculated to find out the correlation and to test the null hypothesis that there is no correlation among publishing in journals, citing from journals and use of journals by a defined set of researchers.

Ex. It is tremendously valuable to library staff (particularly in libraries with a designated departmental structure) to maintain close professional ties with local academic departments.

Ex. Library and Information Plans (LIP) are 5-year management plans for information provision in a circumscribed region.

Ex. Threats to the integrity of science include interest in paranormal phenomena, sensationalism of science and pressure for targeted research.

Ex. These include a series of focused workshops and a four day national conference.

Ex. Some articles cover broad themes while others are more narrowly focused.

----

* área de datos específicos de la clase de documento = material (or type of publication) specific details area.

* area temática específica = narrow subject area.

* base de datos dirigida a un mercado específico = niche database.

* centrado en un tema específico = topic-centred.

* conseguir ocupar un lugar específico = secure + a niche.

* de aplicación específica a un equipo de ordenador = hardware-based.

* dedicado a una aplicación específica = dedicated.

* del documento específico = document-related.

* dirigido a un sector de la población específico = sector-orientated.

* específico a la biblioteca = library-specific.

* específico de = peculiar to.

* específico de la biblioteca = library-specific.

* específico de la edición = edition-specific.

* específico de las empresas = company-specific.

* específico del documento = document-related, document-specific.

* específico de una agencia = agency-specific.

* específico de una base de datos = database-specific.

* específico de una disciplina = discipline-specific.

* específico de un trabajo concreto = job-specific.

* específico para cada edición = edition-specific.

* grupo específico = niche.

* hecho para una situación específica = niche-specific.

* índice específico = specific index.

* información específica = data element.

* mención específica del formato de música impresa = musical presentation statement.

* mercado específico = niche market.

* para ser específico = to be specific.

* peso específico = specific gravity.

* público específico = niche audience.

* término específico = specific term.

* término específico genérico (NTG) = narrower term generic (NTG).

* término específico partitivo (NTP) = narrower term partitive (NTP).

* término más específico = narrower term.

* tratamiento específico de la información = specific approach.

* valor específico = weighting.

* * *

I

- ca adjetivo

1) ( preciso) specific

2) (Farm, Med) specific

II

masculino specific

* * *

= given, individual, narrow [narrower -comp., narrowest -sup.], niche-specific, one, one-off, specific, single, bounded, determinate, particular, defined, designated, circumscribed, targeted, focused [focussed], narrowly focused.

Ex: The notation for any given geographical division varies between classes and between different parts of the same classes.

Ex: The series area includes the series title, an indication of the responsibility for the series (often series editors), and the number of the individual work within the series, if the work is one of a numbered series.

Ex: The subject areas which such data bases cover may range from relatively narrow subjects, to interdisciplinary areas.

Ex: The history and analysis of CCML presented here is quite subjective and specific to BRS, but does reflect the issues associated with producing a niche-specific database.

Ex: Note the different definitions, and the different boundaries for this one subject area.

Ex: Associated with full-time staffing reductions has been the virtual elimination of part-time teachers and ' one-off' expert lecturers.

Ex: Various publishers have reputations for specific styles, subject areas or works for specific audiences.

Ex: In other words, the elements of any single case may point to several concepts; in this sense, the cases are like icebergs -- more is hidden han appears on the surface.

Ex: This problem arises in real time multimedia applications, which often requires a guaranteed bandwidth and bounded delay to ensure that the quality of service is met = Este problema surge en las aplicaciones multimedia en tiempo real, que a menudo necesitan un ancho de banda garantizado y un retraso limitado para asegurar la calidad del servicio.

Ex: There is no coherent and determinate body of legal doctrine and the categories available for classifying legal problems simply mask the incoherency and indeterminacy of legal doctrine.

Ex: It is possible to identify an item uniquely within a particular institution or agency by a running accession number.

Ex: The Pearson correlation coefficient has been calculated to find out the correlation and to test the null hypothesis that there is no correlation among publishing in journals, citing from journals and use of journals by a defined set of researchers.

Ex: It is tremendously valuable to library staff (particularly in libraries with a designated departmental structure) to maintain close professional ties with local academic departments.

Ex: Library and Information Plans (LIP) are 5-year management plans for information provision in a circumscribed region.

Ex: Threats to the integrity of science include interest in paranormal phenomena, sensationalism of science and pressure for targeted research.

Ex: These include a series of focused workshops and a four day national conference.

Ex: Some articles cover broad themes while others are more narrowly focused.

* área de datos específicos de la clase de documento = material (or type of publication) specific details area.

* area temática específica = narrow subject area.

* base de datos dirigida a un mercado específico = niche database.

* centrado en un tema específico = topic-centred.

* conseguir ocupar un lugar específico = secure + a niche.

* de aplicación específica a un equipo de ordenador = hardware-based.

* dedicado a una aplicación específica = dedicated.

* del documento específico = document-related.

* dirigido a un sector de la población específico = sector-orientated.

* específico a la biblioteca = library-specific.

* específico de = peculiar to.

* específico de la biblioteca = library-specific.

* específico de la edición = edition-specific.

* específico de las empresas = company-specific.

* específico del documento = document-related, document-specific.

* específico de una agencia = agency-specific.

* específico de una base de datos = database-specific.

* específico de una disciplina = discipline-specific.

* específico de un trabajo concreto = job-specific.

* específico para cada edición = edition-specific.

* grupo específico = niche.

* hecho para una situación específica = niche-specific.

* índice específico = specific index.

* información específica = data element.

* mención específica del formato de música impresa = musical presentation statement.

* mercado específico = niche market.

* para ser específico = to be specific.

* peso específico = specific gravity.

* público específico = niche audience.

* término específico = specific term.

* término específico genérico (NTG) = narrower term generic (NTG).

* término específico partitivo (NTP) = narrower term partitive (NTP).

* término más específico = narrower term.

* tratamiento específico de la información = specific approach.

* valor específico = weighting.

* * *

específico¹ -ca

adjective

A (determinado, preciso) specific peso

B ( Farm, Med) specific

un medicamento específico a specific

específico²

masculine

specific

* * *

 

Del verbo especificar: ( conjugate especificar)

especifico es:

1ª persona singular (yo) presente indicativo

especificó es:

3ª persona singular (él/ella/usted) pretérito indicativo

Multiple Entries:
especificar    
específico
especificar ( conjugate especificar) verbo transitivo
to specify
específico

◊ -ca adjetivo

specific
especificar verbo transitivo to specify
específico,-a
I adjetivo specific
II m Med specific (remedy): los médicos de la seguridad social procuran no recetar específicos, doctors in the national health care system avoid prescribing specifics to their patients

' específico' also found in these entries:
Spanish:
específica
- peso
- concreto
- general
- helecho
- particular
- quinceañero
English:
backbencher
- crime
- general
- given
- in
- literate
- particular
- specific
- back

* * *

específico, -a

♦ adj

specific

♦ nm

[medicamento] specific

* * *

específico

adj specific

* * *

específico, -ca adj

: specific

♦ específicamente adv

* * *

específico adj specific

temática

adj.

relating to a theme or subject, thematic.

f.

subject matter, theme.

* * *

temática

► nombre femenino

1 subject matter

* * *

SF

1) (=conjunto de temas) subjects pl

2) (=tema) [de obra, película] subject matter

* * *

femenino subject matter

* * *

= aboutness.

Nota: En lenguajes documentales, contenido del que trata un documento.

Ex. This article contends that indexing which generally represents only ' aboutness' (topic) serves the novice adequately, but does not serve the expert who is concerned with highly specific aspects of points-of-view (comment).

----

* area temática específica = narrow subject area.

* especialización temática = subject speciality.

* * *

femenino subject matter

* * *

= aboutness.

Nota: En lenguajes documentales, contenido del que trata un documento.

Ex: This article contends that indexing which generally represents only ' aboutness' (topic) serves the novice adequately, but does not serve the expert who is concerned with highly specific aspects of points-of-view (comment).

* area temática específica = narrow subject area.

* especialización temática = subject speciality.

* * *

temática

feminine

subject matter

esculturas de temática religiosa religious sculptures, sculptures of religious subjects

el artículo no encaja en la temática de la revista the article does not fit in with the general subject matter of the magazine

* * *

temático,-a adjetivo thematic
temática sustantivo femenino themes, subject matter
' temática' also found in these entries:
English:
matter

* * *

temática nf

subject matter;

poesía de temática social poetry dealing with social issues

* * *

temática

f subject matter

* * *

temática nf

: subject matter

Spooner, Charles Easton

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 1818 Maentwrog, Merioneth (now Gwynedd), Wales

d. 18 November 1889 Portmadoc (now Porthmadog), Wales

[br]

English engineer, pioneer of narrow-gauge steam railways.

[br]

At the age of 16 Charles Spooner helped his father, James, to build the Festiniog Railway, a horse-and-gravity tramroad; they maintained an even gradient and kept costs down by following a sinuous course along Welsh mountainsides and using a very narrow gauge. This was probably originally 2 ft 1 in. (63.5 cm) from rail centre to rail centre; with the introduction of heavier, and therefore wider, rails the gauge between them was reduced and was eventually standardized at 1 ft 11 1/2 in (60 cm). After James Spooner's death in 1856 Charles Spooner became Manager and Engineer of the Festiniog Railway and sought to introduce steam locomotives. Widening the gauge was impracticable, but there was no precedent for operating a public railway of such narrow gauge by steam. Much of the design work for locomotives for the Festiniog Railway was the responsibility of C.M.Holland, and many possible types were considered: eventually, in 1863, two very small 0–4–0 tank locomotives, with tenders for coal, were built by George England.

These locomotives were successful, after initial problems had been overcome, and a passenger train service was introduced in 1865 with equal success. The potential for economical operation offered by such a railway attracted widespread attention, the more so because it had been effectively illegal to build new passenger railways in Britain to other than standard gauge since the Gauge of Railways Act of 1846.

Spooner progressively improved the track, alignment, signalling and rolling stock of the Festiniog Railway and developed it from a tramroad to a miniaturized main line. Increasing traffic led to the introduction in 1869 of the 0–4–4–0 double-Fairlie locomotive Little Wonder, built to the patent of Robert Fairlie. This proved more powerful than two 0–4–0s and impressive demonstrations were given to engineers from many parts of the world, leading to the widespread adoption of narrow-gauge railways. Spooner himself favoured a gauge of 2 ft 6 in. (76 cm) or 2 ft 9 in. (84 cm). Comparison of the economy of narrow gauges with the inconvenience of a break of gauge at junctions with wider gauges did, however, become a continuing controversy, which limited the adoption of narrow gauges in Britain.

Bogie coaches had long been used in North America but were introduced to Britain by Spooner in 1872, when he had two such coaches built for the Festiniog Railway. Both of these and one of its original locomotives, though much rebuilt, remain in service.

Spooner, despite some serious illnesses, remained Manager of the Festiniog Railway until his death.

[br]

Bibliography

1869, jointly with G.A.Huddart, British patent no. 1,487 (improved fishplates). 1869, British patent no. 2,896 (rail-bending machinery).

1871, Narrow Gauge Railways, E. \& F.N.Spon (includes his description of the Festiniog Railway, reports of locomotive trials and his proposals for narrow-gauge railways).

Further Reading

J.I.C.Boyd, 1975, The Festiniog Railway, Blandford: Oakwood Press; C.E.Lee, 1945, Narrow-Gauge Railways in North Wales, The Railway Publishing Co. (both give good descriptions of Spooner and the Festiniog Railway).

C.Hamilton Ellis, 1965, Railway Carriages in the British Isles, London: George Allen \& Unwin, pp. 181–3. Pihl, Carl Abraham.

PJGR

Fairlie, Robert Francis

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. March 1831 Scotland

d. 31 July 1885 Clapham, London, England

[br]

British engineer, designer of the double-bogie locomotive, advocate of narrow-gauge railways.

[br]

Fairlie worked on railways in Ireland and India, and established himself as a consulting engineer in London by the early 1860s. In 1864 he patented his design of locomotive: it was to be carried on two bogies and had a double boiler, the barrels extending in each direction from a central firebox. From smokeboxes at the outer ends, return tubes led to a single central chimney. At that time in British practice, locomotives of ever-increasing size were being carried on longer and longer rigid wheelbases, but often only one or two of their three or four pairs of wheels were powered. Bogies were little used and then only for carrying-wheels rather than driving-wheels: since their pivots were given no sideplay, they were of little value. Fairlie's design offered a powerful locomotive with a wheelbase which though long would be flexible; it would ride well and have all wheels driven and available for adhesion.

The first five double Fairlie locomotives were built by James Cross \& Co. of St Helens during 1865–7. None was particularly successful: the single central chimney of the original design had been replaced by two chimneys, one at each end of the locomotive, but the single central firebox was retained, so that exhaust up one chimney tended to draw cold air down the other. In 1870 the next double Fairlie, Little Wonder, was built for the Festiniog Railway, on which C.E. Spooner was pioneering steam trains of very narrow gauge. The order had gone to George England, but the locomotive was completed by his successor in business, the Fairlie Engine \& Steam Carriage Company, in which Fairlie and George England's son were the principal partners. Little Wonder was given two inner fireboxes separated by a water space and proved outstandingly successful. The spectacle of this locomotive hauling immensely long trains up grade, through the Festiniog Railway's sinuous curves, was demonstrated before engineers from many parts of the world and had lasting effect. Fairlie himself became a great protagonist of narrow-gauge railways and influenced their construction in many countries.

Towards the end of the 1860s, Fairlie was designing steam carriages or, as they would now be called, railcars, but only one was built before the death of George England Jr precipitated closure of the works in 1870. Fairlie's business became a design agency and his patent locomotives were built in large numbers under licence by many noted locomotive builders, for narrow, standard and broad gauges. Few operated in Britain, but many did in other lands; they were particularly successful in Mexico and Russia.

Many Fairlie locomotives were fitted with the radial valve gear invented by Egide Walschaert; Fairlie's role in the universal adoption of this valve gear was instrumental, for he introduced it to Britain in 1877 and fitted it to locomotives for New Zealand, whence it eventually spread worldwide. Earlier, in 1869, the Great Southern \& Western Railway of Ireland had built in its works the first "single Fairlie", a 0–4–4 tank engine carried on two bogies but with only one of them powered. This type, too, became popular during the last part of the nineteenth century. In the USA it was built in quantity by William Mason of Mason Machine Works, Taunton, Massachusetts, in preference to the double-ended type.

Double Fairlies may still be seen in operation on the Festiniog Railway; some of Fairlie's ideas were far ahead of their time, and modern diesel and electric locomotives are of the powered-bogie, double-ended type.

[br]

Bibliography

1864, British patent no. 1,210 (Fairlie's master patent).

1864, Locomotive Engines, What They Are and What They Ought to Be, London; reprinted 1969, Portmadoc: Festiniog Railway Co. (promoting his ideas for locomotives).

1865, British patent no. 3,185 (single Fairlie).

1867. British patent no. 3,221 (combined locomotive/carriage).

1868. "Railways and their Management", Journal of the Society of Arts: 328. 1871. "On the Gauge for Railways of the Future", abstract in Report of the Fortieth

Meeting of the British Association in 1870: 215. 1872. British patent no. 2,387 (taper boiler).

1872, Railways or No Railways. "Narrow Gauge, Economy with Efficiency; or Broad Gauge, Costliness with Extravagance", London: Effingham Wilson; repr. 1990s Canton, Ohio: Railhead Publications (promoting the cause for narrow-gauge railways).

Further Reading

Fairlie and his patent locomotives are well described in: P.C.Dewhurst, 1962, "The Fairlie locomotive", Part 1, Transactions of the Newcomen Society 34; 1966, Part 2, Transactions 39.

R.A.S.Abbott, 1970, The Fairlie Locomotive, Newton Abbot: David \& Charles.

PJGR

Gorton, Richard

SUBJECT AREA: Textiles

[br]

fl. 1790s England

[br]

English patentee of a power loom for weaving narrow fabrics.

[br]

In May 1791, Richard Gorton took out a patent for a new type of power-driven loom for narrow fabrics to "work one or several pieces at the same time, either by hand, lath, steam engine, or by water-machinery". The sley with the reed was worked by a crank, and the picker by a lever and cam. The shuttle-box had springs to retain the shuttle, and the warp was kept tight by weights. A stop, which was usually pushed out of the way by the shuttle entering the box, prevented the sley or lath "driving the shuttle against the piece" when the shuttle stuck in the middle. One particularly interesting feature was the sizing of the warp threads by means of brushes and a roller that turned in a square trough filled with size. This pre-dates Radcliffe's sizing machine, which is always considered the first, by a number of years. The mill in which these machines worked was at Cuckney, near Mansfield, England. In 1788 Thomas Gorton had installed one of the earliest Boulton \& Watt rotative steam engines there.

[br]

Bibliography

May 1791, British patent no. 1,804 (power loom for weaving narrow fabrics).

Further Reading

R.L.Hills, 1970, Power in the Industrial Revolution, Manchester (provides an account of Gorton's patent).

S.D.Chapman, 1967, The Early Factory Masters, Newton Abbot (makes a brief mention of this invention).

RLH

Pihl, Carl Abraham

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 16 January 1825 Stavanger, Norway

d. 14 September 1897 Kristiania (now Oslo), Norway

[br]

Norwegian railway engineer, protagonist of narrow-gauge railways.

[br]

Pihl trained as an engineer at Göteborg, Sweden, and then moved to London, where he worked under Robert Stephenson during 1845 and 1846. In 1850 he returned to Norway and worked with the English contractors building the first railway in Norway, the Norwegian Trunk Railway from Kristiania to Eidsvold, for which the English standard gauge was used. Subsequently he worked in England for a year, but in 1856 joined the Norwegian government's Road Department, which was to have responsibility for railways. In 1865 a distinct Railway Department was set up, and Pihl became Director for State Railway Construction. Because of the difficulties of the terrain and limited traffic, Pihl recommended that in the case of two isolated lines to be built the outlay involved in ordinary railways would not be justified, and that they should be built to the narrow gauge of 3 ft 6 in. (1.07 m). His recommendation was accepted by the Government in 1857 and the two lines were built to this gauge and opened during 1861–4. Six of their seven locomotives, and all their rolling stock, were imported from Britain. The lines cost £3,000 and £5,000 per mile, respectively; a standard-gauge line built in the same period cost £6,400 per mile.

Subsequently, many hundreds of miles of Norwegian railways were built to 3 ft 6 in. (1.07 m) gauge under Pihl's direction. They influenced construction of railways to this gauge in Australia, Southern Africa, New Zealand, Japan and elsewhere. However, in the late 1870s controversy arose in Norway over the economies that could in fact be gained from the 3 ft 6 in. (1,07 m) gauge. This controversy in the press, in discussion and in the Norwegian parliament became increasingly acrimonious during the next two decades; the standard-gauge party may be said to have won with the decision in 1898, the year after Pihl's death, to build the Bergen-Oslo line to standard gauge.

[br]

Principal Honours and Distinctions

Knight of the Order of St Olaf 1862; Commander of the Order of St Olaf 1877. Commander of the Royal Order of Vasa 1867. Royal Order of the Northern Star 1882.

Further Reading

P.Allen and P.B.Whitehouse, 1959, Narrow Gauge Railways of Europe, Ian Allan (describes the Norwegian Battle of the Gauges).

A biographical article on Pihl appears (in Norwegian) in Norsk Biografisk Leksikon.

See also: Fox, Sir Charles; Inoue Masaru; Spooner, Charles Easton

PJGR

Fox, Sir Charles

SUBJECT AREA: Architecture and building, Civil engineering, Railways and locomotives

[br]

b. 11 March 1810 Derby, England

d. 14 June 1874 Blackheath, London, England

[br]

English railway engineer, builder of Crystal Palace, London.

[br]

Fox was a pupil of John Ericsson, helped to build the locomotive Novelty, and drove it at the Rainhill Trials in 1829. He became a driver on the Liverpool \& Manchester Railway and then a pupil of Robert Stephenson, who appointed him an assistant engineer for construction of the southern part of the London \& Birmingham Railway, opened in 1837. He was probably responsible for the design of the early bow-string girder bridge which carried the railway over the Regent's Canal. He also invented turnouts with switch blades, i.e. "points". With Robert Stephenson he designed the light iron train sheds at Euston Station, a type of roof that was subsequently much used elsewhere. He then became a partner in Fox, Henderson \& Co., railway contractors and manufacturers of railway equipment and bridges. The firm built the Crystal Palace in London for the Great Exhibition of 1851: Fox did much of the detail design work personally and was subsequently knighted. It also built many station roofs, including that at Paddington. From 1857 Fox was in practice in London as a consulting engineer in partnership with his sons, Charles Douglas Fox and Francis Fox. Sir Charles Fox became an advocate of light and narrow-gauge railways, although he was opposed to break-of-gauge unless it was unavoidable. He was joint Engineer for the Indian Tramway Company, building the first narrow-gauge (3 ft 6 in. or 107 cm) railway in India, opened in 1865, and his firm was Consulting Engineer for the first railways in Queensland, Australia, built to the same gauge at the same period on recommendation of Government Engineer A.C.Fitzgibbon.

[br]

Principal Honours and Distinctions

Knighted 1851.

Further Reading

Obituary, 1875, Minutes of Proceedings of the Institution of Civil Engineers 39:264.

F.Fox, 1904, River, Road, and Rail, John Murray, Ch. 1 (personal reminiscences by his son).

L.T.C.Rolt, 1970, Victorian Engineering, London: Allen Lane.

PJGR

Heathcote, John

SUBJECT AREA: Textiles

[br]

b. 7 August 1783 Duffield, Derbyshire, England

d. 18 January 1861 Tiverton, Devonshire, England

[br]

English inventor of the bobbin-net lace machine.

[br]

Heathcote was the son of a small farmer who became blind, obliging the family to move to Long Whatton, near Loughborough, c.1790. He was apprenticed to W.Shepherd, a hosiery-machine maker, and became a frame-smith in the hosiery industry. He moved to Nottingham where he entered the employment of an excellent machine maker named Elliott. He later joined William Caldwell of Hathern, whose daughter he had married. The lace-making apparatus they patented jointly in 1804 had already been anticipated, so Heathcote turned to the problem of making pillow lace, a cottage industry in which women made lace by arranging pins stuck in a pillow in the correct pattern and winding around them thread contained on thin bobbins. He began by analysing the complicated hand-woven lace into simple warp and weft threads and found he could dispense with half the bobbins. The first machine he developed and patented, in 1808, made narrow lace an inch or so wide, but the following year he made much broader lace on an improved version. In his second patent, in 1809, he could make a type of net curtain, Brussels lace, without patterns. His machine made bobbin-net by the use of thin brass discs, between which the thread was wound. As they passed through the warp threads, which were arranged vertically, the warp threads were moved to each side in turn, so as to twist the bobbin threads round the warp threads. The bobbins were in two rows to save space, and jogged on carriages in grooves along a bar running the length of the machine. As the strength of this fabric depended upon bringing the bobbin threads diagonally across, in addition to the forward movement, the machine had to provide for a sideways movement of each bobbin every time the lengthwise course was completed. A high standard of accuracy in manufacture was essential for success. Called the "Old Loughborough", it was acknowledged to be the most complicated machine so far produced. In partnership with a man named Charles Lacy, who supplied the necessary capital, a factory was established at Loughborough that proved highly successful; however, their fifty-five frames were destroyed by Luddites in 1816. Heathcote was awarded damages of £10,000 by the county of Nottingham on the condition it was spent locally, but to avoid further interference he decided to transfer not only his machines but his entire workforce elsewhere and refused the money. In a disused woollen factory at Tiverton in Devonshire, powered by the waters of the river Exe, he built 300 frames of greater width and speed. By continually making inventions and improvements until he retired in 1843, his business flourished and he amassed a large fortune. He patented one machine for silk cocoon-reeling and another for plaiting or braiding. In 1825 he brought out two patents for the mechanical ornamentation or figuring of lace. He acquired a sound knowledge of French prior to opening a steam-powered lace factory in France. The factory proved to be a successful venture that lasted many years. In 1832 he patented a monstrous steam plough that is reputed to have cost him over £12,000 and was claimed to be the best in its day. One of its stated aims was "improved methods of draining land", which he hoped would develop agriculture in Ireland. A cable was used to haul the implement across the land. From 1832 to 1859, Heathcote represented Tiverton in Parliament and, among other benefactions, he built a school for his adopted town.

[br]

Bibliography

1804, with William Caldwell, British patent no. 2,788 (lace-making machine). 1808. British patent no. 3,151 (machine for making narrow lace).

1809. British patent no. 3,216 (machine for making Brussels lace). 1813, British patent no. 3,673.

1825, British patent no. 5,103 (mechanical ornamentation of lace). 1825, British patent no. 5,144 (mechanical ornamentation of lace).

Further Reading

V.Felkin, 1867, History of the Machine-wrought Hosiery and Lace Manufacture, Nottingham (provides a full account of Heathcote's early life and his inventions).

A.Barlow, 1878, The History and Principles of Weaving by Hand and by Power, London (provides more details of his later years).

W.G.Allen, 1958 John Heathcote and His Heritage (biography).

M.R.Lane, 1980, The Story of the Steam Plough Works, Fowlers of Leeds, London (for comments about Heathcote's steam plough).

W.English, 1969, The Textile Industry, London, and C.Singer (ed.), 1958, A History of

Technology, Vol. V, Oxford: Clarendon Press (both describe the lace-making machine).

RLH

Brunel, Isambard Kingdom

SUBJECT AREA: Civil engineering, Land transport, Mechanical, pneumatic and hydraulic engineering, Ports and shipping, Public utilities, Railways and locomotives

[br]

b. 9 April 1806 Portsea, Hampshire, England

d. 15 September 1859 18 Duke Street, St James's, London, England

[br]

English civil and mechanical engineer.

[br]

The son of Marc Isambard Brunel and Sophia Kingdom, he was educated at a private boarding-school in Hove. At the age of 14 he went to the College of Caen and then to the Lycée Henri-Quatre in Paris, after which he was apprenticed to Louis Breguet. In 1822 he returned from France and started working in his father's office, while spending much of his time at the works of Maudslay, Sons \& Field.

From 1825 to 1828 he worked under his father on the construction of the latter's Thames Tunnel, occupying the position of Engineer-in-Charge, exhibiting great courage and presence of mind in the emergencies which occurred not infrequently. These culminated in January 1828 in the flooding of the tunnel and work was suspended for seven years. For the next five years the young engineer made abortive attempts to find a suitable outlet for his talents, but to little avail. Eventually, in 1831, his design for a suspension bridge over the River Avon at Clifton Gorge was accepted and he was appointed Engineer. (The bridge was eventually finished five years after Brunel's death, as a memorial to him, the delay being due to inadequate financing.) He next planned and supervised improvements to the Bristol docks. In March 1833 he was appointed Engineer of the Bristol Railway, later called the Great Western Railway. He immediately started to survey the route between London and Bristol that was completed by late August that year. On 5 July 1836 he married Mary Horsley and settled into 18 Duke Street, Westminster, London, where he also had his office. Work on the Bristol Railway started in 1836. The foundation stone of the Clifton Suspension Bridge was laid the same year. Whereas George Stephenson had based his standard railway gauge as 4 ft 8½ in (1.44 m), that or a similar gauge being usual for colliery wagonways in the Newcastle area, Brunel adopted the broader gauge of 7 ft (2.13 m). The first stretch of the line, from Paddington to Maidenhead, was opened to traffic on 4 June 1838, and the whole line from London to Bristol was opened in June 1841. The continuation of the line through to Exeter was completed and opened on 1 May 1844. The normal time for the 194-mile (312 km) run from Paddington to Exeter was 5 hours, at an average speed of 38.8 mph (62.4 km/h) including stops. The Great Western line included the Box Tunnel, the longest tunnel to that date at nearly two miles (3.2 km).

Brunel was the engineer of most of the railways in the West Country, in South Wales and much of Southern Ireland. As railway networks developed, the frequent break of gauge became more of a problem and on 9 July 1845 a Royal Commission was appointed to look into it. In spite of comparative tests, run between Paddington-Didcot and Darlington-York, which showed in favour of Brunel's arrangement, the enquiry ruled in favour of the narrow gauge, 274 miles (441 km) of the former having been built against 1,901 miles (3,059 km) of the latter to that date. The Gauge Act of 1846 forbade the building of any further railways in Britain to any gauge other than 4 ft 8 1/2 in (1.44 m).

The existence of long and severe gradients on the South Devon Railway led to Brunel's adoption of the atmospheric railway developed by Samuel Clegg and later by the Samuda brothers. In this a pipe of 9 in. (23 cm) or more in diameter was laid between the rails, along the top of which ran a continuous hinged flap of leather backed with iron. At intervals of about 3 miles (4.8 km) were pumping stations to exhaust the pipe. Much trouble was experienced with the flap valve and its lubrication—freezing of the leather in winter, the lubricant being sucked into the pipe or eaten by rats at other times—and the experiment was abandoned at considerable cost.

Brunel is to be remembered for his two great West Country tubular bridges, the Chepstow and the Tamar Bridge at Saltash, with the latter opened in May 1859, having two main spans of 465 ft (142 m) and a central pier extending 80 ft (24 m) below high water mark and allowing 100 ft (30 m) of headroom above the same. His timber viaducts throughout Devon and Cornwall became a feature of the landscape. The line was extended ultimately to Penzance.

As early as 1835 Brunel had the idea of extending the line westwards across the Atlantic from Bristol to New York by means of a steamship. In 1836 building commenced and the hull left Bristol in July 1837 for fitting out at Wapping. On 31 March 1838 the ship left again for Bristol but the boiler lagging caught fire and Brunel was injured in the subsequent confusion. On 8 April the ship set sail for New York (under steam), its rival, the 703-ton Sirius, having left four days earlier. The 1,340-ton Great Western arrived only a few hours after the Sirius. The hull was of wood, and was copper-sheathed. In 1838 Brunel planned a larger ship, some 3,000 tons, the Great Britain, which was to have an iron hull.

The Great Britain was screwdriven and was launched on 19 July 1843,289 ft (88 m) long by 51 ft (15.5 m) at its widest. The ship's first voyage, from Liverpool to New York, began on 26 August 1845. In 1846 it ran aground in Dundrum Bay, County Down, and was later sold for use on the Australian run, on which it sailed no fewer than thirty-two times in twenty-three years, also serving as a troop-ship in the Crimean War. During this war, Brunel designed a 1,000-bed hospital which was shipped out to Renkioi ready for assembly and complete with shower-baths and vapour-baths with printed instructions on how to use them, beds and bedding and water closets with a supply of toilet paper! Brunel's last, largest and most extravagantly conceived ship was the Great Leviathan, eventually named The Great Eastern, which had a double-skinned iron hull, together with both paddles and screw propeller. Brunel designed the ship to carry sufficient coal for the round trip to Australia without refuelling, thus saving the need for and the cost of bunkering, as there were then few bunkering ports throughout the world. The ship's construction was started by John Scott Russell in his yard at Millwall on the Thames, but the building was completed by Brunel due to Russell's bankruptcy in 1856. The hull of the huge vessel was laid down so as to be launched sideways into the river and then to be floated on the tide. Brunel's plan for hydraulic launching gear had been turned down by the directors on the grounds of cost, an economy that proved false in the event. The sideways launch with over 4,000 tons of hydraulic power together with steam winches and floating tugs on the river took over two months, from 3 November 1857 until 13 January 1858. The ship was 680 ft (207 m) long, 83 ft (25 m) beam and 58 ft (18 m) deep; the screw was 24 ft (7.3 m) in diameter and paddles 60 ft (18.3 m) in diameter. Its displacement was 32,000 tons (32,500 tonnes).

The strain of overwork and the huge responsibilities that lay on Brunel began to tell. He was diagnosed as suffering from Bright's disease, or nephritis, and spent the winter travelling in the Mediterranean and Egypt, returning to England in May 1859. On 5 September he suffered a stroke which left him partially paralysed, and he died ten days later at his Duke Street home.

[br]

Further Reading

L.T.C.Rolt, 1957, Isambard Kingdom Brunel, London: Longmans Green. J.Dugan, 1953, The Great Iron Ship, Hamish Hamilton.

IMcN

Albert, Prince Consort

SUBJECT AREA: Architecture and building, Civil engineering

[br]

b. 26 August 1819 The Rosenau, near Coburg, Germany

d. 14 December 1861 Windsor Castle, England

[br]

German/British polymath and Prince Consort to Queen Victoria.

[br]

Albert received a sound education in the arts and sciences, carefully designed to fit him for a role as consort to the future Queen Victoria. After their marriage in 1840, Albert threw himself into the task of establishing his position as, eventually, Prince Consort and uncrowned king of England. By his undoubted intellectual gifts, unrelenting hard work and moral rectitude, Albert moulded the British constitutional monarchy into the form it retains to this day. The purchase in 1845 of the Osborne estate in the Isle of Wight provided not only the growing royal family with a comfortable retreat from London and public life, but Albert with full scope for his abilities as architect and planner. With Thomas Cubitt, the eminent engineer and contractor, Albert erected at Osborne one of the most remarkable buildings of the nineteenth century. He went on to design the house and estate at Balmoral in Scotland, another notable creation.

Albert applied his abilities as architect and planner in the promotion of such public works as the London sewer system and, in practical form, the design of cottages for workers, such as those in south London, as well as those on the royal estates. Albert's other main contribution to technology was as educationist in a broad sense. In 1847, he was elected Chancellor of Cambridge University. He was appalled at the low standards and narrow curriculum prevailing there and at Oxford. He was no mere figurehead, but took a close and active interest in the University's affairs. With his powerful influence behind them, the reforming fellows were able to force measures to raise standards and widen the curriculum to take account, in particular, of the rapid progress in the natural sciences. Albert was instrumental in ending the lethargy of centuries and laying the foundations of the modern British university system.

In 1847 the Prince became Secretary of the Royal Society of Arts. With Henry Cole, the noted administrator who shared Albert's concern for the arts, he promoted a series of exhibitions under the auspices of the Society. From these grew the idea of a great exhibition of the products of the decorative and industrial arts. It was Albert who decided that its scope should be international. As Chairman of the organizing committee, by sheer hard work he drove the project through to a triumphant conclusion. The success of the Exhibition earned it a handsome profit for which Albert had found a use even before it closed. The proceeds went towards the purchase of a site in South Kensington, for which he drew up a grand scheme for a complex of museums and colleges for the education of the people in the sciences and the arts. This largely came to fruition and South Kensington today is a fitting memorial to the Prince Consort's wisdom and concern for the public good.

[br]

Further Reading

Sir Theodore Martin, 1875–80, The Life of His Royal Highness, the Prince Consort, 5 vols, London; German edn 1876; French edn 1883 (the classic life of the Prince).

R.R.James, 1983, Albert, Prince Consort: A Biography, London: Hamish Hamilton (the standard modern biography).

L.R.Day, 1989, "Resources for the study of the history of technology in the Science Museum Library", IATUL Quarterly 3:122–39 (provides a short account of the rise of South Kensington and its institutions).

LRD

Anschütz, Ottomar

SUBJECT AREA: Photography, film and optics

[br]

b. 1846 Lissa, Prussia (now Leszno, Poland) d. 1907

[br]

German photographer, chronophotographer ana inventor.

[br]

The son of a commercial photographer, Anschütz entered the business in 1868 and developed an interest in the process of instantaneous photography. The process was very difficult with the contemporary wet-plate process, but with the introduction of the much faster dry plates in the late 1870s he was able to make progress. Anschütz designed a focal plane shutter capable of operating at speeds up to 1/1000 of a second in 1883, and patented his design in 1888. it involved a vertically moving fabric roller-blind that worked at a fixed tension but had a slit the width of which could be adjusted to alter the exposure time. This design was adopted by C.P.Goerz, who from 1890 manufactures a number of cameras that incorporated it.

Anschütz's action pictures of flying birds and animals attracted the attention of the Prussian authorities, and in 1886 the Chamber of Deputies authorized financial support for him to continue his work, which had started at the Hanover Military Institute in October 1885. Inspired by the work of Eadweard Muybridge in America, Anschütz had set up rows of cameras whose focal-plane shutters were released in sequence by electromagnets, taking twenty-four pictures in about three-quarters of a second. He made a large number of studies of the actions of people, animals and birds, and at the Krupp artillery range at Meppen, near Essen, he recorded shells in flight. His pictures were reproduced, and favourably commented upon, in scientific and photographic journals.

To bring the pictures to the public, in 1887 he created the Electro-Tachyscope. The sequence negatives were printed as 90 x 120 mm transparencies and fixed around the circumference of a large steel disc. This was rotated in front of a spirally wound Geissler tube, which produced a momentary brilliant flash of light when a high voltage from an induction coil was applied to it, triggered by contacts on the steel disc. The flash duration, about 1/1000 of a second, was so short that it "froze" each picture as it passed the tube. The pictures succeeded each other at intervals of about 1/30 of a second, and the observer saw an apparently continuously lit moving picture. The Electro-Tachyscope was shown publicly in Berlin at the Kulturministerium from 19 to 21 March 1887; subsequently Siemens \& Halske manufactured 100 machines, which were shown throughout Europe and America in the early 1890s. From 1891 his pictures were available for the home in the form of the Tachyscope viewer, which used the principle of the zoetrope: sequence photographs were printed on long strips of thin card, perforated with narrow slots between the pictures. Placed around the circumference of a shallow cylinder and rotated, the pictures could be seen in life-like movement when viewed through the slots.

In November 1894 Anschütz displayed a projector using two picture discs with twelve images each, which through a form of Maltese cross movement were rotated intermittently and alternately while a rotating shutter allowed each picture to blend with the next so that no flicker occurred. The first public shows, given in Berlin, were on a screen 6×8 m (20×26 ft) in size. From 22 February 1895 they were shown regularly to audiences of 300 in a building on the Leipzigstrasse; they were the first projected motion pictures seen in Germany.

[br]

Further Reading

J.Deslandes, 1966, Histoire comparée du cinéma, Vol. I, Paris. B.Coe, 1992, Muybridge and the Chronophotographers, London.

BC

Ashley, Howard Matravers

SUBJECT AREA: Domestic appliances and interiors, Mechanical, pneumatic and hydraulic engineering

[br]

b. 1841

d. 1914 England

[br]

English inventor of the semi-automatic bottle-making machine.

[br]

Ashley, manager of an iron foundry at Ferrybridge, Yorkshire, began trying to construct a bottle-making machine in the 1880s. In 1886 he obtained a patent for a two-stage machine. This proved to be impracticable, but improvements were described in further patents in 1887 and 1889, leading to a three-stage process, embodying the basic elements of a machine to make narrow-necked glass bottles. The Ashley (Machine-Made) Bottle Company was set up to exploit the invention, but had failed by 1894 due to poor management, although it had claimed to make bottles in a tenth of the time taken to make them by hand. Ashley had shown the way, however, and his machines were still producing good bottles in 1918. The process was a stage along the way to complete mechanization brought about by M.J. Owens's machine.

[br]

Bibliography

Ashley took out nine British patents during 1886–90, including: 2 July 1886, British patent no. 8,677 (two-stage bottle-making machine).

Further Reading

R.E.Moody, 1985, "A century of mechanical bottle making", Glass Technology 26 (2): 109 ff.

LRD

Behr, Fritz Bernhard

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 9 October 1842 Berlin, Germany

d. 25 February 1927

[br]

German (naturalized British in 1876) engineer, promoter of the Lartigue monorail system.

[br]

Behr trained as an engineer in Britain and had several railway engineering appointments before becoming associated with C.F.M.-T. Lartigue in promoting the Lartigue monorail system in the British Isles. In Lartigue's system, a single rail was supported on trestles; vehicles ran on the rail, their bodies suspended pannier-fashion, stabilized by horizontal rollers running against light guide rails fixed to the sides of the trestles. Behr became Managing Director of the Listowel \& Ballybunion Railway Company, which in 1888 opened its Lartigue system line between those two places in the south-west of Ireland. Three locomotives designed by J.T.A. Mallet were built for the line by Hunslet Engine Company, each with two horizontal boilers, one either side of the track. Coaches and wagons likewise were in two parts. Technically the railway was successful, but lack of traffic caused the company to go bankrupt in 1897: the railway continued to operate until 1924.

Meanwhile Behr had been thinking in terms far more ambitious than a country branch line. Railway speeds of 150mph (240km/h) or more then lay far in the future: engineers were uncertain whether normal railway vehicles would even be stable at such speeds. Behr was convinced that a high-speed electric vehicle on a substantial Lartigue monorail track would be stable. In 1897 he demonstrated such a vehicle on a 3mile (4.8km) test track at the Brussels International Exhibition. By keeping the weight of the motors low, he was able to place the seats above rail level. Although the generating station provided by the Exhibition authorities never operated at full power, speeds over 75mph (120 km/h) were achieved.

Behr then promoted the Manchester-Liverpool Express Railway, on which monorail trains of this type running at speeds up to 110mph (177km/h) were to link the two cities in twenty minutes. Despite strong opposition from established railway companies, an Act of Parliament authorizing it was made in 1901. The Act also contained provision for the Board of Trade to require experiments to prove the system's safety. In practice this meant that seven miles of line, and a complete generating station to enable trains to travel at full speed, must be built before it was known whether the Board would give its approval for the railway or not. Such a condition was too severe for the scheme to attract investors and it remained stillborn.

[br]

Further Reading

H.Fayle, 1946, The Narrow Gauge Railways of Ireland, Greenlake Publications, Part 2, ch. 2 (describes the Listowel \& Ballybunion Railway and Behr's work there).

D.G.Tucker, 1984, "F.B.Behr's development of the Lartigue monorail", Transactions of

the Newcomen Society 55 (covers mainly the high speed lines).

See also: Brennan, Louis

PJGR

Braun, Karl Ferdinand

SUBJECT AREA: Electricity, Electronics and information technology, Telecommunications

[br]

b. 6 June 1850 Fulda, Hesse, Germany

d. 20 April 1918 New York City, New York, USA

[br]

German physicist who shared with Marconi the 1909 Nobel Prize for Physics for developments in wireless telegraphy; inventor of the cathode ray oscilloscope.

[br]

After obtaining degrees from the universities of Marburg and Berlin (PhD) and spending a short time as Headmaster of the Thomas School in Berlin, Braun successively held professorships in theoretical physics at the universities of Marburg (1876), Strasbourg (1880) and Karlsruhe (1883) before becoming Professor of Experimental Physics at Tübingen in 1885 and Director and Professor of Physics at Strasbourg in 1895.

During this time he devised experimental apparatus to determine the dielectric constant of rock salt and developed the Braun high-tension electrometer. He also discovered that certain mineral sulphide crystals would only conduct electricity in one direction, a rectification effect that made it possible to detect and demodulate radio signals in a more reliable manner than was possible with the coherer. Primarily, however, he was concerned with improving Marconi's radio transmitter to increase its broadcasting range. By using a transmitter circuit comprising a capacitor and a spark-gap, coupled to an aerial without a spark-gap, he was able to obtain much greater oscillatory currents in the latter, and by tuning the transmitter so that the oscillations occupied only a narrow frequency band he reduced the interference with other transmitters. Other achievements include the development of a directional aerial and the first practical wavemeter, and the measurement in Strasbourg of the strength of radio waves received from the Eiffel Tower transmitter in Paris. For all this work he subsequently shared with Marconi the 1909 Nobel Prize for Physics.

Around 1895 he carried out experiments using a torsion balance in order to measure the universal gravitational constant, g, but the work for which he is probably best known is the addition of deflecting plates and a fluorescent screen to the Crooke's tube in 1897 in order to study the characteristics of high-frequency currents. The oscilloscope, as it was called, was not only the basis of a now widely used and highly versatile test instrument but was the forerunner of the cathode ray tube, or CRT, used for the display of radar and television images.

At the beginning of the First World War, while in New York to testify in a patent suit, he was trapped by the entry of the USA into the war and remained in Brooklyn with his son until his death.

[br]

Principal Honours and Distinctions

Nobel Prize for Physics (jointly with Marconi) 1909.

Bibliography

1874, "Assymetrical conduction of certain metal sulphides", Pogg. Annal. 153:556 (provides an account of the discovery of the crystal rectifier).

1897, "On a method for the demonstration and study of currents varying with time", Wiedemann's Annalen 60:552 (his description of the cathode ray oscilloscope as a measuring tool).

Further Reading

K.Schlesinger \& E.G.Ramberg, 1962, "Beamdeflection and photo-devices", Proceedings of the Institute of Radio Engineers 50, 991.

KF

Cady, Walter Guyton

SUBJECT AREA: Electricity, Electronics and information technology, Horology, Telecommunications

[br]

b. 10 December 1874 Providence, Rhode Island, USA

d. 9 December 1974 Providence, Rhode Island, USA

[br]

American physicist renowned for his pioneering work on piezo-electricity.

[br]

After obtaining BSc and MSc degrees in physics at Brown University in 1896 and 1897, respectively, Cady went to Berlin, obtaining his PhD in 1900. Returning to the USA he initially worked for the US Coast and Geodetic Survey, but in 1902 he took up a post at the Wesleyan University, Connecticut, remaining as Professor of Physics from 1907 until his retirement in 1946. During the First World War he became interested in piezo-electricity as a result of attending a meeting on techniques for detecting submarines, and after the war he continued to work on the use of piezo-electricity as a transducer for generating sonar beams. In the process he discovered that piezo-electric materials, such as quartz, exhibited high-stability electrical resonance, and in 1921 he produced the first working piezo-electric resonator. This idea was subsequently taken up by George Washington Pierce and others, resulting in very stable oscillators and narrow-band filters that are widely used in the 1990s in radio communications, electronic clocks and watches.

Internationally known for his work, Cady retired from his professorship in 1946, but he continued to work for the US Navy. From 1951 to 1955 he was a consultant and research associate at the California Institute of Technology, after which he returned to Providence to continue research at Brown, filing his last patent (one of over fifty) at the age of 93 years.

[br]

Principal Honours and Distinctions

President, Institute of Radio Engineers 1932. London Physical Society Duddell Medal. Institute of Electrical and Electronics Engineers Morris N.Liebmann Memorial Prize 1928.

Bibliography

28 January 1920, US patent no. 1,450,246 (piezo-electric resonator).

1921, "The piezo-electric resonator", Physical Review 17:531. 1946, Piezoelectricity, New York: McGraw Hill (his classic work).

Further Reading

B.Jaffe, W.R.Cooke \& H.Jaffe, 1971, Piezoelectric Ceramics.

KF

Churchward, George Jackson

SUBJECT AREA: Land transport, Railways and locomotives

[br]

b. 31 January 1857 Stoke Gabriel, Devon, England

d. 19 December 1933 Swindon, Wiltshire, England

[br]

English mechanical engineer who developed for the Great Western Railway a range of steam locomotives of the most advanced design of its time.

[br]

Churchward was articled to the Locomotive Superintendent of the South Devon Railway in 1873, and when the South Devon was absorbed by the Great Western Railway in 1876 he moved to the latter's Swindon works. There he rose by successive promotions to become Works Manager in 1896, and in 1897 Chief Assistant to William Dean, who was Locomotive Carriage and Wagon Superintendent, in which capacity Churchward was allowed extensive freedom of action. Churchward eventually succeeded Dean in 1902: his title changed to Chief Mechanical Engineer in 1916.

In locomotive design, Churchward adopted the flat-topped firebox invented by A.J.Belpaire of the Belgian State Railways and added a tapered barrel to improve circulation of water between the barrel and the firebox legs. He designed valves with a longer stroke and a greater lap than usual, to achieve full opening to exhaust. Passenger-train weights had been increasing rapidly, and Churchward produced his first 4–6– 0 express locomotive in 1902. However, he was still developing the details—he had a flair for selecting good engineering practices—and to aid his development work Churchward installed at Swindon in 1904 a stationary testing plant for locomotives. This was the first of its kind in Britain and was based on the work of Professor W.F.M.Goss, who had installed the first such plant at Purdue University, USA, in 1891. For comparison with his own locomotives Churchward obtained from France three 4–4–2 compound locomotives of the type developed by A. de Glehn and G. du Bousquet. He decided against compounding, but he did perpetuate many of the details of the French locomotives, notably the divided drive between the first and second pairs of driving wheels, when he introduced his four-cylinder 4–6–0 (the Star class) in 1907. He built a lone 4–6–2, the Great Bear, in 1908: the wheel arrangement enabled it to have a wide firebox, but the type was not perpetuated because Welsh coal suited narrow grates and 4–6–0 locomotives were adequate for the traffic. After Churchward retired in 1921 his successor, C.B.Collett, was to enlarge the Star class into the Castle class and then the King class, both 4–6–0s, which lasted almost as long as steam locomotives survived in service. In Church ward's time, however, the Great Western Railway was the first in Britain to adopt six-coupled locomotives on a large scale for passenger trains in place of four-coupled locomotives. The 4–6–0 classes, however, were but the most celebrated of a whole range of standard locomotives of advanced design for all types of traffic and shared between them many standardized components, particularly boilers, cylinders and valve gear.

[br]

Further Reading

H.C.B.Rogers, 1975, G.J.Churchward. A Locomotive Biography, London: George Allen \& Unwin (a full-length account of Churchward and his locomotives, and their influence on subsequent locomotive development).

C.Hamilton Ellis, 1958, Twenty Locomotive Men, Shepperton: Ian Allan, Ch. 20 (a good brief account).

Sir William Stanier, 1955, "George Jackson Churchward", Transactions of the Newcomen

Society 30 (a unique insight into Churchward and his work, from the informed viewpoint of his former subordinate who had risen to become Chief Mechanical Engineer of the London, Midland \& Scottish Railway).

See also: Gresley, Sir Herbert Nigel; Stanier, Sir William Arthur

PJGR

Coade, Eleanor

SUBJECT AREA: Architecture and building

[br]

b. 24 June 1733 Exeter, Devon, England

d. 18 November 1821 Camberwell, London, England

[br]

English proprietor of the Coade Factory, making artificial stone.

[br]

Born Elinor Coade, she never married but adopted, as was customary in business in the eighteenth century, the courtesy title of Mrs. Following the bankruptcy and death of her father, George Coade, in Exeter, Eleanor and her mother (also called Eleanor) moved to London and founded the works at Lambeth, South London, in 1769 that later became famous as the Coade factory. The factory was located at King's Arms Stairs, Narrow Wall. During the eighteenth century, several attempts had been made in other businesses to manufacture a durable, malleable artificial stone that would be acceptable to architects for decorative use. These substances were not very successful, but Coade stone was different. Although stories are legion about the secret formula supposedly used in this artificial stone, modern methods have established the exact formula.

Coade stone was a stoneware ceramic material fired in a kiln. The body was remarkable in that it shrank only 8 per cent in drying and firing: this was achieved by using a combination of china clay, sand, crushed glass and grog (i.e. crushed and ground, previously fired stoneware). The Coade formula thus included a considerable proportion of material that, having been fired once already, was unshrinkable. Mrs Coade's name for the firm, Coade's Lithodipyra Terra-Cotta or Artificial Stone Manufactory (where "Lithodipyra" is a term derived from three Greek words meaning "stone", "twice" and "fire"), made reference to the custom of including such material (such as in Josiah Wedgwood's basalt and jasper ware). The especially low rate of shrinkage rendered the material ideal for making extra-life-size statuary, and large architectural, decorative features to be incorporated into stone buildings.

Coade stone was widely used for such purposes by leading architects in Britain and Ireland from the 1770s until the 1830s, including Robert Adam, Sir Charles Barry, Sir William Chambers, Sir John Soane, John Nash and James Wyatt. Some architects introduced the material abroad, as far as, for example, Charles Bulfinch's United States Bank in Boston, Massachusetts, and Charles Cameron's redecoration for the Empress Catherine of the great palace Tsarkoe Selo (now Pushkin), near St Petersburg. The material so resembles stone that it is often mistaken for it, but it is so hard and resistant to weather that it retains sharpness of detail much longer than the natural substance. The many famous British buildings where Coade stone was used include the Royal Hospital, Chelsea, Carlton House and the Sir John Soane Museum (all of which are located in London), St George's Chapel at Windsor, Alnwick Castle in Northumberland, and Culzean Castle in Ayrshire, Scotland.

Apart from the qualities of the material, the Coade firm established a high reputation for the equally fine quality of its classical statuary. Mrs Coade employed excellent craftsmen such as the sculptor John Bacon (1740–99), whose work was mass-produced by the use of moulds. One famous example which was widely reproduced was the female caryatid from the south porch of the Erechtheion on the acropolis of Athens. A drawing of this had appeared in the second edition of Stuart and Revett's Antiquities of Athens in 1789, and many copies were made from the original Coade model; Soane used them more than once, for example on the Bank of England and his own houses in London.

Eleanor Coade was a remarkable woman, and was important and influential on the neo-classical scene. She had close and amicable relations with leading architects of the day, notably Robert Adam and James Wyatt. The Coade factory was enlarged and altered over the years, but the site was finally cleared during 1949–50 in preparation for the establishment of the 1951 Festival of Britain.

[br]

Further Reading

A.Kelly, 1990, Mrs Coade's Stone, pub. in conjunction with the Georgian Group (an interesting, carefully written history; includes a detailed appendix on architects who used Coade stone and buildings where surviving work may be seen).

DY

Deverill, Hooton

SUBJECT AREA: Textiles

[br]

fl. c.1835 England

[br]

English patentee of the first successful adaptation of the Jacquard machine for patterned lacemaking.

[br]

After John Levers had brought out his lacemaking machine in 1813, other lacemakers proceeded to elaborate their machinery so as to imitate the more complicated forms of handwork. One of these was Samuel Draper of Nottingham, who took out one patent in 1835 for the use of a Jacquard mechanism on a lace making machine, followed by another in 1837. However, material made on his machine cost more than the handmade article, so the experiment was abandoned after three years. Then, in Nottingham in 1841, Hooton Deverill patented the first truly successful application of the Jacquard to lacemaking. The Jacquard needles caused the warp threads to be pushed sideways to form the holes in the lace while the bobbins were moved around them to bind them together. This made it possible to reproduce most of the traditional patterns of handmade lace in both narrow and wide pieces. Lace made on these machines became cheap enough for most people to be able to hang it in their windows as curtains, or to use it for trimming clothing. However, it raised in a most serious form the problem of patent rights between the two patentees, Deverill and Draper, threatening much litigation. Deverill's patent was bought by Richard Birkin, who with his partner Biddle relinquished the patent rights. The lacemaking trade on these machines was thus thrown open to the public and a new development of the trade took place. Levers lace is still made in the way described here.

[br]

Bibliography

1841, British patent no. 8,955 (adaptation of Jacquard machine for patterned lacemaking).

Further Reading

W.Felkin, 1867, History of Machine-Wrought Hosiery and Lace Manufacture (provides an account of Deverill's patent).

C.Singer (ed.), 1958, A History of'Technology, Vol. V, Oxford: Clarendon Press (a modern account).

T.K.Derry and T.I.Williams, 1960, A Short History of Technology from the Earliest

Times to AD 1900, Oxford.

RLH