Editing Locomotive (section)

==Use==
There are three main uses of locomotives in [[rail transport operations]]: hauling [[passenger]] trains, [[freight]] trains, and [[shunting (rail)|switching]] (UK English: shunting).

Freight locomotives are normally designed to deliver high starting [[tractive effort]] and high sustained power. This allows them to start and move long, heavy trains, but usually comes at the cost of relatively low maximum speeds. Passenger locomotives usually develop lower starting tractive effort but are able to operate at the high speeds required to maintain passenger schedules. Mixed-traffic locomotives (US English: general purpose or road switcher locomotives) meant for both passenger and freight trains do not develop as much starting tractive effort as a freight locomotive but are able to haul heavier trains than a passenger locomotive.{{Dubious|reason=Over-simplified; not current; incorrect|date=March 2025}}

Most steam locomotives have reciprocating engines, with pistons coupled to the driving wheels by means of connecting rods, with no intervening gearbox. This means the combination of starting tractive effort and maximum speed is greatly influenced by the diameter of the driving wheels. Steam locomotives intended for freight service generally have smaller diameter driving wheels than passenger locomotives.

In diesel-electric and electric locomotives the control system between the [[traction motor]]s and [[axle]]s adapts the power output to the rails for freight or passenger service. Passenger locomotives may include other features, such as [[head-end power]] (also referred to as hotel power or electric train supply) or a [[steam generator (railroad)|steam generator]].

Some locomotives are designed specifically to work [[steep grade railway]]s, and feature extensive additional braking mechanisms and sometimes rack and pinion. Steam locomotives built for steep [[Rack railway|rack and pinion railways]] frequently have the boiler tilted relative to the [[locomotive frame]], so that the boiler remains roughly level on steep grades.

Locomotives are also used on some high-speed trains. Some of them are operated in [[push-pull train|push-pull formation]] with trailer [[control car]]s at another end of a train, which often have a cabin with the same design as a cabin of locomotive; examples of such trains with conventional locomotives are [[Railjet]] and [[Intercity 225]].

Also many high-speed trains, including all [[TGV]], many [[Talgo]] (250 / 350 / Avril / XXI), some [[Korea Train Express]], [[ICE 1]]/[[ICE 2]] and [[Intercity 125]], use dedicated [[power car]]s, which do not have places for passengers and technically are special single-ended locomotives. The difference from conventional locomotives is that these power cars are integral part of a train and are not adapted for operation with any other types of passenger coaches. On the other hand, many high-speed trains such as the [[Shinkansen]] network never use locomotives. Instead of locomotive-like power-cars, they use [[electric multiple unit]]s (EMUs) or diesel multiple units (DMUs) – passenger cars that also have traction motors and power equipment. Using dedicated locomotive-like power cars allows for a high ride quality and less electrical equipment;<ref name="hata" >{{cite magazine
 |last              = Hata
 |first             = Hiroshi
 |date              = 1998
 |title             = What Drives Electric Multiple Units?
 |url               = http://www.ejrcf.or.jp/jrtr/jrtr17/pdf/f40_technology.pdf
 |editor-last       = Wako
 |editor-first      = Kanji
 |magazine          = Japan Railway & Transport Review
 |publication-place = Tokyo, Japan
 |publisher         = [[East Japan Railway Culture Foundation]]
 |access-date       = 16 November 2022
 |archive-date      = 10 October 2022
 |archive-url       = https://ghostarchive.org/archive/20221010/http://www.ejrcf.or.jp/jrtr/jrtr17/pdf/f40_technology.pdf
 |url-status        = live
}}</ref>
but EMUs have less axle weight, which reduces maintenance costs, and EMUs also have higher acceleration and higher seating capacity.<ref name="hata" />
Also some trains, including [[TGV PSE]], [[TGV TMST]] and [[Project V150|TGV V150]], use both non-passenger power cars and additional passenger motor cars.