Early history Trains are an evolution of wheeled wagons running on stone
wagonways, the earliest of which were built by
Babylon circa 2,200 BCE. Starting in the 1500s, wagonways were introduced to haul material from mines; from the 1790s, stronger iron rails were introduced. Following early developments in the second half of the 1700s, in 1804 a steam locomotive built by British inventor
Richard Trevithick powered the first ever steam train. Outside of coal mines, where fuel was readily available, steam locomotives remained untried until the opening of the
Stockton and Darlington Railway in 1825. British engineer
George Stephenson ran a steam locomotive named
Locomotion No. 1 on this long line, hauling over 400 passengers at up to . The success of this locomotive and
Stephenson's Rocket in 1829 convinced many of the value of steam locomotives, and within a decade, the
stock market bubble known as "
Railway Mania" spread across the United Kingdom. locomotives represented the pinnacle of steam locomotive technology and power. News of the success of steam locomotives quickly reached the
United States, where the first steam railroad opened in 1829. American railroad pioneers soon started manufacturing their own locomotives, designed to handle the sharper curves and rougher track typical of the country's railroads. The other nations of
Europe also took note of British railroad developments, and most countries on the continent constructed and opened their first railroads in the 1830s and 1840s, following the first run of a steam train in
France in late 1829. In the 1850s, trains continued to expand across Europe, with many influenced by or purchases of American locomotive designs. Other European countries pursued their own distinct designs. Around the world, steam locomotives grew larger and more powerful throughout the rest of the century as technology advanced. Trains first entered service in
South America,
Africa, and
Asia through construction by
imperial powers, which starting in the 1840s built railroads to solidify control of their colonies and transport cargo for export. In
Japan, which was never colonized, railroads first arrived in the early 1870s. By 1900, railroads were operating on every continent besides uninhabited Antarctica.
New technologies in Stockholm in the 1890s. Even as steam locomotive technology continued to improve, inventors in
Germany began developing alternative methods for powering trains.
Werner von Siemens built the first train powered by electricity in 1879, and went on to pioneer electric
trams. Another German inventor,
Rudolf Diesel, constructed the first
diesel engine in the 1890s, though the potential of his invention to power trains was not realized until decades later. Between 1897 and 1903, tests of experimental electric locomotives on the
Royal Prussian Military Railway in Germany demonstrated they were viable, setting speed records in excess of . set the stage for diesel locomotives to take over from steam.Early gas powered "
doodlebug" self-propelled railcars entered service on railroads in the first decade of the 1900s. Experimentation with diesel and gas power continued, culminating in the German "
Flying Hamburger" in 1933, and the influential American
EMD FT in 1939. These successful diesel locomotives showed that diesel power was superior to steam, due to lower costs, ease of maintenance, and better reliability. Meanwhile, Italy developed an extensive network of electric trains during the first decades of the 20th century, driven by that country's lack of significant coal reserves.
Dieselization and increased competition World War II caused widespread destruction of existing railroads across Europe, Asia, and Africa. Following the war's conclusion in 1945, nations which had suffered extensive damage to their railroad networks took the opportunity provided by
Marshall Plan funds (or economic assistance from the
USSR and
Comecon, for nations behind the
Iron Curtain) and advances in technology to convert their trains to diesel or electric power.
France,
Russia,
Switzerland, and
Japan were leaders in adopting widespread
electrified railroads, while other nations focused primarily on
dieselization. By 1980, the majority of the world's steam locomotives had been retired, though they continued to be used in parts of Africa and Asia, along with a few holdouts in Europe and South America.
China was the last country to dieselize fully, due to its abundant coal reserves; steam locomotives were used to haul mainline trains as late as 2005 in
Inner Mongolia. Trains began to face strong competition from automobiles and freight trucks in the 1930s, and this competition intensified greatly following World War II. After the war, air transport also became a significant competitor for passenger trains. Large amounts of traffic shifted to these new forms of transportation, resulting in a widespread decline in train service, both freight and passenger. A new development in the 1960s was
high-speed rail, which runs on dedicated rights of way and travels at speeds of or greater. The first high-speed rail service was the Japanese
Shinkansen, which entered service in 1964. In the following decades, high-speed rail networks were developed across much of
Europe and Eastern Asia, providing fast and reliable service competitive with automobiles and airplanes. The first high-speed train in the Americas was
Amtrak's
Acela in the
United States, which entered service in 2000.
To the present day Towards the end of the 20th century, increased awareness of the benefits of trains for transport led to a revival in their use and importance. Freight trains are significantly more efficient than trucks and emit far fewer greenhouse gas emissions per ton-mile; passenger trains are also far more energy-efficient than other modes of transport. According to the
International Energy Agency, "On average, rail requires 12 times less energy and emits 7–11 times less
GHGs per passenger-km traveled than private vehicles and airplanes, making it the most efficient mode of motorized passenger transport. Aside from shipping, freight rail is the most energy-efficient and least carbon-intensive way to transport goods." As such, rail transport is considered an important part of achieving
sustainable energy.
Intermodal freight trains, carrying
double-stack shipping containers, have since the 1970s generated significant business for railroads and gained market share from trucks. Increased use of commuter rail has also been promoted as a means of fighting
traffic congestion on highways in urban areas. == Components ==