A roller coaster train is a vehicle made up of two or more cars connected by specialized joints which transports passengers around a roller coaster's circuit.
It is called a train because the cars follow one another around the track, the same reason as for a railroad train. Individual cars vary in design and can carry from one to eight or more passengers each.
Many roller coasters operate more than one train, sometimes several, simultaneously. Typically they operate two trains at a time, with one train loading and unloading while the other train runs the course. On the Rock 'n' Roller Coaster at Walt Disney World, there are five trains, but only four operate at a time (the trains are rotated out on a regular basis for safety reasons).
Roller coaster trains have wheels that run on the sides (side friction or guide wheels) and underneath the track (upstop, underfriction, or underlocking wheels) as well as on top of it (road or running wheels); these lock the train to the tracks and prevent it from jumping the track. The side wheels can be mounted on the outside or inside of the train, depending on the manufacturer (although outside-mounted wheels are more common). The wheels are sometimes located between the cars, as well as at the front and rear of the entire train.
Roller coaster trains also have restraints that keep the passengers in their seats. There are two major types of restraints: lapbar and over-the-shoulder (Most modern OSTR restraints come into contact with riders at the lap; however, older so-called "horsecollar" ones actually restrain riders by the shoulders). Restraints always use two locking mechanisms, one on each side, for redundancy. If one fails, the restraint will remain locked. Most roller coasters also have seat belts that may act as secondary safety devices. On over-the-shoulder restraints, this seatbelt is mostly cosmetic as the restraint locks on its own.
Lapbar restraints consist of a padded bar mounted to the floor or side of the train that swings backwards into the rider's lap. These restraints are usually found on roller coasters that lack inversions. Some inverting roller coasters, notably ones created by Anton Schwarzkopf safely operate without the need for shoulder restraints. Historically, inverting roller coasters with lapbars could only perform vertical loops, as the higher centripetal force (and low lateral force) exerted while traversing a simple clothoid loop helps to keep riders safely in the train. However, with modern advances in engineering, more roller coasters with complicated inversions are able to run without over-the-shoulder restraints. For example, most of Premier Rides' LIM-launched roller coasters (the vast majority of which have multiple inverting elements) operate with only lapbars. Lapbar restraints, like buzz bars give the rider much greater freedom of movement than over-the-shoulder restraints, enhancing the feeling of danger. However, lapbar restraints are not quite as safe as over-the-shoulder restraints, as evidenced by several accidents. Some roller coasters have had their lapbar restraints replaced with over-the-shoulder restraints. Others have had shoulder restaints replaced with lap bar restraints, allowing for a more comfortable ride.