Railway time


Railway time was the standardised time arrangement first applied by the Great Western Railway in England in November 1840, the first recorded occasion when different local mean times were synchronised and a single standard time applied. The key goals behind introducing railway time were to overcome the confusion caused by having non-uniform local times in each town and station stop along the expanding railway network and to reduce the incidence of accidents and near misses, which were becoming more frequent as the number of train journeys increased.
Railway time was progressively taken up by all railway companies in Great Britain over the following seven years. The schedules by which trains were organised and the time station clocks displayed were brought in line with the local mean time for London or "London Time", the time set at Greenwich by the Royal Observatory, which was already widely known as Greenwich Mean Time.
The development of railway networks in North America in the 1850s, India in around 1860, and in Europe, prompted the introduction of standard time influenced by geography, industrial development, and political governance.
The railway companies sometimes faced concerted resistance from local people who refused to adjust their public clocks to bring them into line with London Time. As a consequence, two different times would be displayed in the town and in use, with the station clocks and the times published in train timetables differing by several minutes from that on other clocks. Despite this early reluctance, railway time rapidly became adopted as the default time across the whole of Great Britain, although it took until 1880 for the government to legislate on the establishment of a single standard time and a single time zone for the country.
Some contemporary commentators referred to the influence of railway time on encouraging greater precision in daily tasks and the demand for punctuality.

History

Until the latter part of the 18th century, time was normally determined in each town by a local sundial. Solar time is calculated with reference to the relative position of the sun. This provided only an approximation as to time due to variations in orbits and had become unsuitable for day-to-day purposes. It was replaced by local mean time, which eliminated the variation due to seasonal differences and anomalies. It also took account of the longitude of a location and enabled a precise time to be applied.
Such new-found precision did not overcome a different problem: the differences between the local times of neighbouring towns. In Britain, local time differed by up to 20 minutes from that of London. For example, Oxford Time was 5 minutes behind Greenwich Time, Leeds Time 6 minutes behind, Carnforth 11 minutes behind, and Barrow almost 13 minutes behind. In India and North America, these differences could be 60 minutes or more. Almanacs containing tables were published and instructions attached to sundials to enable the differences between local times to be computed.
Before the arrival of the railways, journeys between the larger cities and towns could take many hours or days, and these differences could be dealt with by adjusting the hands of a watch periodically en route. In Britain, the coaching companies published schedules providing details of the corrections required. However, this variation in local times was large enough to present problems for the railway schedules. For instance, Leeds time was six minutes behind London, while Bristol was ten minutes behind; sunrise for towns to the east, such as Norwich, occurred several minutes ahead of London. It soon became apparent that even such small discrepancies in times caused confusion, disruption, or even accidents.

Influence of the electric telegraph

The electric telegraph, which had been developed in the early part of the 19th century, was refined by William Fothergill Cooke and Charles Wheatstone and was installed on a short section of the Great Western Railway in 1839. By 1852 a telegraph link had been constructed between a new electro-magnetic clock at Greenwich and initially Lewisham, and shortly after this London Bridge stations. It also connected via the Central Telegraph Station of the Electric Time Company in the City of London, which enabled the transmission of a time signal along the railway telegraphic network to other stations. By 1855 time signals from Greenwich could be sent through wires alongside the railway lines across the length and breadth of Britain. This technology was also used in India to synchronise railway time.

Introduction of railway time

Great Britain

Before the advent of the telegraph, stationmasters adjusted their clocks using tables supplied by the railway company to convert local time to London Time. In turn, train guards set their chronometers against those clocks.
The introduction of railway time was in the end swift despite not being straightforward. The Great Western Railway was the first to standardise its timetable on Greenwich Mean Time, in November 1840. One of the most vociferous proponents of standardising time on the railways was Henry Booth, Secretary of the Liverpool and Manchester Railway, who by January 1846 had ordered the adjustment of clocks to Greenwich Mean Time at both Liverpool and Manchester stations.
The Midland Railway adopted London Time at all of its stations on 1 January 1846. As a consequence, in February 1846 the town council of Nottingham ordered that the town clocks be furnished with three hands, two indicating local time and the additional one the railway and post-office London time.
On 22 September 1847, the Railway Clearing House, set up five years earlier to coordinate the distribution of revenue between railway companies, decreed that "GMT be adopted at all stations as soon as the General Post Office permitted it". From 1 December 1847, the London and North Western and the Caledonian Railways switched over.
One of the earliest changes by a major centre outside of London was Liverpool where the mayor and council ordered that from 1 December 1847 the principal public clocks in the city would be set to Greenwich Time.
By January 1848, according to Bradshaws Railway Guide, the railways that had adopted London Time included the London and South Western, the Midland, the Chester and Birkenhead, the Lancaster and Carlisle, the East Lancashire and the York and North Midland.
It was reported that by 1855 that 98 percent of towns and cities had transferred to GMT. On the other hand, not all railway companies convinced the local dignitaries to bring their clocks on public buildings in line without stern resistance. Although by 1844 the Bristol and Exeter Railway was running to London Time, the public clocks at both Exeter and Bristol operated to local time but showed London Time by a second minute hand, 14 and 10 minutes ahead, respectively, of its companion. In Exeter this situation arose due to the reluctance of the Dean of Exeter Cathedral to concede to the demands of the railway company, the cathedral clock being the principal timekeeper for the city. After a meeting of the city council with the cathedral authorities, Railway Time was adopted in Exeter on 2 November 1852. Similarly, the clock at The Bristol Exchange installed in 1822 subsequently had a second minute hand added. Bristol did not solely recognise railway time until September 1852. It was not for a further eight years and the arrival of the electric telegraph that railway time was the sole time recognised in these towns and others in the West Country, including Bath, Devonport and Plymouth. Another town that stood its ground was Oxford where the great clock on Tom Tower at Christ Church, Oxford had two minute hands. It was reported in the Western Times on 18 June 1859 that the opening of the Cornish railway brought the Cornish public into contact with Greenwich time, and the churchwarden of Camborne riled the magistracy by putting the town clock in harmony with railway time. Other Cornish towns adopted Greenwich time during 1860 with Liskeard on 11 January, Penzance on 26 March and Falmouth on 25 August.
It was not until 2 August 1880, when the Statutes Act received the Royal Assent, that a unified standard time for the whole of Great Britain achieved legal status. As late as the 1950s, the Western Region of British Railways had an elaborate telephone ritual at 11:00 am for all signal boxes to synchronise their clocks with that at Paddington Station.

United States

One of the first reported incidents which brought about a change in how time was organised on railways in the United States occurred in New England in August 1853, the Valley Falls train collision. Two trains heading towards each other on the same track collided as the conductors had different times set on their watches, resulting in the death of 14 passengers. Railway schedules were co-ordinated in New England shortly after this incident. Numerous other collisions led to the setting up of the General Time Convention, a committee of railway companies to agree on scheduling.
In 1870 Charles F. Dowd, who was unconnected with the railway movement or civil authorities, proposed A System of National Times for Railroads, which involved a single time for railways but the keeping of local times for towns. Although this did not find favour with railway managers, in 1881 they agreed for the idea to be investigated by William Frederick Allen, Secretary of the General Time Convention and Managing Editor of the Travellers' Official Guide to the Railways. He proposed replacing the 50 different railway times with five time zones. He eventually persuaded the railway managers and the politicians running the cities that had several railway stations that it was in their interests to speedily adopt his simpler proposals, which aligned the zones with cities' railroad stations. In doing so they would pre-empt the imposition of more costly and cumbersome arrangements by different state legislators and the naval authorities, both of whom favoured retention of local times.
Right to the end there was opposition expressed by many smaller towns and cities to the imposition of railway time. For example, in Indianapolis the report in the daily Sentinel for 17 November 1883 protested that people would have to "eat sleep work ... and marry by railroad time". However, with the support of nearly all railway companies, most cities and influential observatories such as Yale and Harvard, this collaborative approach led to standard railway time being introduced at noon on 18 November 1883. This consensus held and was incorporated into federal law only in 1918.