Roller coaster

thumb|upright=1.2|The [[The Great Scenic Railway|Great Scenic Railway at Luna Park, Melbourne, is the world's oldest operating roller coaster, built in 1912.]]

A roller coaster is a type of amusement ride employing a form of elevated railroad track that carries passengers on a train through tight turns, steep slopes, and other elements. Roller coasters are usually designed to produce a thrilling experience, though some roller coasters aim to provide a more gentle experience. Trains consist of open cars connected in a single line, and tracks are typically built and designed as a complete circuit in which trains depart from and return to the same loading station. The rides are typically found in amusement parks around the world but can also be located in shopping malls and zoos. The Roller Coaster DataBase records over 6,000 extant roller coasters .

The earliest progenitors to the modern roller coasters were the "Russian Mountains", which first appeared in the 17th century. LaMarcus Adna Thompson obtained one of the first known patents for a track-based roller coaster design in 1885, based on the Switchback Railway which opened a year earlier at Coney Island. Today, most roller coasters are built out of steel, which can allow for more intense forces and inversions (where the rider is upside down).

History

The Russian Mountains and the Aerial Promenades

The oldest roller coasters are believed to have originated from the so-called "Russian Mountains"; specially constructed hills of ice located in the area that is now Saint Petersburg, Russia. Built in the 17th century, the slides were built to a height of between , had a 50-degree drop, and were reinforced by wooden supports. Later, in 1784, Catherine the Great is said to have constructed a sledding hill in the gardens of her palace at Oranienbaum in St. Petersburg.

center|thumb|800px|La Grande Glisade, [[Tsarskoye Selo]]

The Riding Mountain (aka La Grande Glisade) entertainment pavilion designed by Bartolomeo Francesco Rastrelli for Tsarskoye Selo royal residence was built in 1754–1757. In Russian it was known as Katalnaya gora (Катальная гора, literally "Mountain for riding") The ride was engineered by Russian scientist Andrey Nartov. Katalnaya gora was dismantled in 1792–1795. Currently in its place is the Granite Terrace in the Catherine Park. Les Montagnes de Belleville (Les Montagnes Russes à Belleville) in Belleville, Paris had wheels attached to carriages and locked on tracks.

The Promenades Aériennes, opened in Parc Beaujon in Paris on July 8, 1817 had wheeled cars securely locked to the track, guide rails to keep them on course, and higher speeds. It spawned half a dozen imitators, but their popularity soon declined.

However, during the Belle Epoque they returned to fashion. In 1887, Catalan entrepreneur Joseph Oller, co-founder of the Moulin Rouge music hall, constructed the Montagnes Russes de Belleville, "Russian Mountains of Belleville" with of track laid out in a double-eight, later enlarged to four figure-eight-shaped loops.

left|thumb|upright=1.2|Thompson's [[Switchback Railway, 1884]]

Scenic railways

In 1827, a mining company in Summit Hill, Pennsylvania constructed the Mauch Chunk Switchback Railway, a downhill gravity railroad used to deliver coal to Mauch Chunk, Pennsylvania – now known as Jim Thorpe. By the 1850s, the "Gravity Road" (as it became known) was selling rides to thrill seekers. Railway companies used similar tracks to provide amusement on days when ridership was low.

Using this idea as a basis, LaMarcus Adna Thompson began work on a gravity Switchback Railway that opened in 1884 at Coney Island in Brooklyn, New York. Passengers climbed to the top of a platform and rode a bench-like car down the track up to the top of another tower where the vehicle was switched to a return track and the passengers took the return trip. Over the next decade, roller coasters spread to amusement parks around the world and began an era in the industry often referred to as the "Golden Age". One of the most well known from the period is the historical Cyclone that opened at Coney Island in 1927. The onset of the Great Depression in the 1930s, however, significantly impacted the amusement park industry and brought an end to the rapid growth experienced during the Golden Age. This aside, roller coasters were still built with varying success from location to location. In May 1932, the Scene Railway witnessed somewhat of a revival in the UK, including the opening of the roller coaster at Great Yarmouth. Today it is the only scenic railway still in operation in the UK.

In 1959, Disneyland introduced a design breakthrough with Matterhorn Bobsleds, the first permanent roller coaster to use a tubular steel track. Designed by Arrow Development, the tubular track was unlike standard rail design on wooden coasters, allowing the track to bend in sharper angles in any direction, leading to the incorporation of loops, corkscrews, and inversion elements into track layouts. A little more than a decade later, the immediate success of The Racer at Kings Island in 1972 sparked a new era of roller coaster enthusiasm, which led to a resurgence across the amusement park industry over the next several decades.

In 1989 Cedar Point introduced Magnum XL-200, the first ever hyper coaster. This kicked off a so called roller coaster war that would push the limits of what could be done. This would last into the early 2000s with rides such as Millennium Force, Top Thrill Dragster, and Kingda Ka being constructed. Kingda Ka marked of this period as no park wanted to invest the amount of money needed to surpass the height of this ride.

Etymology

thumb|upright=1.3|[[Steel Force (left) and Thunderhawk (right), two roller coasters at Dorney Park & Wildwater Kingdom in Allentown, Pennsylvania. Steel Force is the eighth longest steel roller coaster in the world.]]

There are several explanations for the name roller coaster. It is said to have originated from an early American design where slides or ramps were fitted with rollers over which a sled would coast.

In many languages, including most Romance languages, the name refers to "Russian mountains". Conversely, in Russian, they are called "Американские горки" (Amerikanskiye gorki, "American hills"). In the Scandinavian languages, the roller coaster is referred as "mountain-and-valley railway". German has the word Achterbahn, stemming from Figur-8-Bahn, relating to the form of the number 8 (acht in German). This is similar to the Dutch Achtbaan, in which acht also means "eight".

Mechanics

thumb|upright=1.2|Video from inside a roller coaster car ([[Helix (roller coaster)|Helix at Liseberg in Gothenburg, Sweden)]]

Roller coaster trains are not typically powered. Most are pulled up a lift hill by a chain or cable and released downhill. The potential energy accumulated by the rise in height is transferred to kinetic energy, which is then converted back into potential energy as the train rises up the next hill. Changes in elevation become smaller throughout the track's course, as some mechanical energy is lost to friction and air drag. A properly-designed, outdoor track will result in a train having enough kinetic energy to complete the entire course under a variety of stressful weather conditions.

In lieu of a lift hill, a train may also be set into motion by a launch mechanism such as a flywheel, linear induction motor, linear synchronous motor, hydraulic launch, or drive tire. Some launched roller coasters are capable of reaching greater speeds using less track when compared to traditional coasters that rely on a conventional lift hill.

A brake run at the end of the circuit is the most common method of stopping a roller coaster train as it returns to the station.

Safety mechanisms and technology

A variety of safety mechanisms protect riders on roller coasters.

Block system

Most large roller coasters have the ability to run two or more trains at once.

The block system prevents these trains from colliding. In this system, the track is divided into two or more sections known as blocks.

Only one train is permitted in each block at any given time.
There is a section of track at the end of each block where a train can be stopped if necessary.
Examples include block brakes, the top of a lift hill (that can stop) and the station (train will not dispatch until the next block is clear).
Sensors detect when a train passes so that the system's computer is aware of which blocks are occupied. If a train attempts to enter an occupied block, the stopping mechanisms in all blocks are engaged.

Seat restraints

Seat restraints are used to ensure that riders stay in their seats throughout the ride.

Types of restraints

{| class="wikitable"

!Type of restraint

!Description

!Pros

!Cons

|Over-the-shoulder

|Secures riders' torsos using a harness that is pulled down over the rider before the ride starts.

Can feel more secure for scared riders

Can cause headbanging
Can remove some airtime
Can feel cramped or claustrophobic

|Lap bar

|Secures riders' laps using either a bar that's pulled from in front of riders or pulled down from above like over-the-shoulder restraints

More airtime
No headbanging
More open feel

Can feel insecure or exposing for scared riders
Can cause misconceptions that roller coasters with inversions that use lap bars are dangerous

|Vest

|Similar to over-the-shoulder restraints but uses a vest pulled tightly on the rider's torso to secure them

No headbanging
Less bulky than over the shoulder restraints

Tight
Can remove airtime

|Seatbelt

|Uses a belt across the rider's waist to secure them, or can be used as a fallback for other restraints

Can be used in conjunction with other restraint types as a fall-back
Can make scared riders feel more secure when used in conjunction with other restraints
When used alone is very open and very unrestrictive

Not suitable for most types of intense roller coasters

Restraint locking mechanisms

{| class="wikitable"

!Locking mechanism

!Description

|Hydraulic

|Uses hydraulic piston and fluid to lock restraints.

When the restraint is pulled down, it forces liquid through a one-way valve. This liquid cannot return and thus the restraint stays closed. When the restraints are unlocked by the ride operator, an electrical signal is sent to another valve, which opens, allowing the fluid to return to the start position and letting the restraint rise.

|Ratcheting

|Uses a toothed gear and pawl to lock restraints. When the restraint is pulled down, the pawl clicks into the next tooth on the gear. The pawl cannot go in the opposite direction. When the restraint is unlocked by the ride operator, an electrical signal is sent to the pawl which moves it out of the way and lets the restraint go back up.

Restraints use proximity sensors to determine if they are locked. If not all of the restraints are locked, the train cannot leave the station.

Braking systems

Braking systems such as pivoting pawls are used on the bottom of the train and on the inclined lift hill. While the train goes up the lift hill, it is pulled by a chain. The pawl moves over bumps that are separated closely apart. In the event that the train ever becomes disconnected from the chain, the anti rollback system will engage and it will fall back into the nearest downhill stop preventing the train from falling down the lift hill. This system creates the loud "clicking" sound that is heard on the lift hill of roller coasters.

Programmable logic controller

Another key to safety is the programmable logic controller, an essential component of a roller coaster's computer system. Multiple controllers work together to detect faults associated with operation and automate decisions to engage various elements (e.g. lift, brakes, etc.). Periodic maintenance and visual inspection by ride engineers are also important to verify that structures and materials are within expected wear tolerances and functioning correctly. Effective operating procedures further enhance safety.

Roller coaster design and statistics

Roller coaster design is another important aspect that requires a working knowledge of basic physics to enhance ride comfort and avoid harmful strain to the rider. Ride designers must carefully analyze the movement a ride subjects its riders to, ensuring it is within a reasonable tolerance. The human body needs sufficient time to react to sudden changes in force in order to control muscle tension and avoid harmful consequences such as whiplash. Designers typically stay in the range of as a maximum for positive g-force acceleration, which increases the feeling of weight and pushes riders downward into their seat. High positive g-forces can lead to the sensation of a greyout or a loss of consciousness. For negative g-force (which causes the sensation of weightlessness and airtime), the target is as a maximum. These fall into a range considered safe to a majority of the population. Lateral acceleration is also typically kept under , using various techniques including the banking of curves, which increases vertical acceleration and reduces lateral acceleration.

Wheels are a critical part in roller coaster design. The purpose of wheels is to keep the train on the track and to prevent it from flying off. A majority of roller coaster wheels are made from polyurethane. There are three kinds of roller coaster wheels which include road wheels, side friction wheels, and up-stop wheels. Road wheels ride on top of the track. Side friction wheels ride on the side of the track to keep the train on the track throughout turns. Up-stop wheels ride below the track and prevent the train from lifting off the track.

Health concerns

Some sources have shown concern over the ability of roller coasters to cause head trauma and serious injury such as the tearing of axons and damaging of blood vessels.

Types

thumb|upright=1.2|Cyclon roller coaster in the [[Nokkakivi amusement park in Laukaa, Finland]]

Roller coasters are divided into two main categories: steel roller coasters and wooden roller coasters. Steel coasters have tubular steel tracks, and compared to wooden coasters, they are typically known for offering a smoother ride and their ability to turn riders upside-down. Wooden coasters have flat steel tracks, and are usually supported with a lattice or truss. The vast majority of roller coasters operating today are made with steel. RMC has notably redesigned wood coasters that have either deteriorated from age or been deemed by parks as too costly to maintain. RMC often replaces the wood track with their patented steel I-Box track design, while reusing much of the ride's wooden structure, resulting in a smoother ride with the incorporation of new design elements, such as inversions, sharper turns, and steeper drops.

Although the term "hybrid roller coaster" wasn't used until the 21st century, one of the oldest examples is Cyclone at Luna Park, which opened in 1927. It features a wood track and steel structure. Other older examples include mine train roller coasters, many of which were built by Arrow Dynamics. The term hybrid became more prominent after the introduction of New Texas Giant at Six Flags Over Texas in 2011. Many in the industry, however, continue to classify coasters strictly by their track type only, labeling them either steel or wood.

Modern roller coasters are constantly evolving to provide a variety of different experiences. More focus is being placed on the position of riders in relation to the overall experience. Traditionally, riders sit facing forward, but variations such as stand-up and flying models position the rider in different ways to change the experiences. A flying model, for example, places riders lying down and facing forward with their chests and feet strapped in. Other ways of enhancing the experience involve removing the floor beneath passengers riding above the track, as featured in floorless roller coasters. Unique track elements, such as new inversions, are often introduced to provide entirely new experiences. One variation, a shuttle roller coaster, reverses at some point throughout the course of the ride to traverse the same track backwards. Parks have also experimented with using virtual reality to augment the coaster experience.

By train type

Bobsled
Floorless
Flying
Fourth-dimension
Inverted
Mine train
Motorbike
Summer toboggan, also known as Mountain/Alpine coaster
Pipeline
Side friction
Single-rail
Spinning
Virginia Reel
Stand-up
Steeplechase
Suspended
Water coaster
Wing
Wild mouse

By model

Accelerator Coaster
Boomerang
Dive Coaster
El Loco
Galaxi
Euro-Fighter
Giant Inverted Boomerang
Impulse
Infinity Coaster
Invertigo
Launched Loop
Polercoaster
SFX Coaster
Shuttle Loop
Sky Rocket II
SkyLoop
Suspended Family Coaster
Suspended Looping Coaster
Thrust Air 2000
Toboggan
Vekoma Junior Coaster

By track layout

Dual-tracked
Figure 8
Out and back
Shuttle
Terrain
Twister
Wild mouse

By mechanics

Lift hill
Launched
Powered

By height

thumb|upright=1.2|Family coaster: [[Kingdom Coaster at Dutch Wonderland in Lancaster, Pennsylvania, is a coaster that reaches a top speed of ]]

thumb|upright=1.2|Mega/Hyper coaster: [[Nitro (Six Flags Great Adventure)|Nitro at Six Flags Great Adventure, a Bolliger & Mabillard out and back coaster.]]

thumb|upright=1.2|Giga coaster: [[Millennium Force is a Intamin designed roller coaster at Cedar Point in Sandusky, Ohio.]]

thumb|upright=1.2|Strata coaster: Once the tallest coaster in the world, the [[Kingda Ka at Six Flags Great Adventure closed in 2024.]]

Several height classifications have been used by parks and manufacturers in marketing their roller coasters, as well as enthusiasts within the industry. One classification, the kiddie coaster, or family coaster, is a roller coaster specifically designed for younger riders. Following World War II, parks began pushing for more of them to be built in contrast to the height and age restrictions of standard designs at the time. Companies like Philadelphia Toboggan Company (PTC) developed scaled-down versions of their larger models to accommodate the demand. These typically featured lift hills smaller than , and still do today. The rise of kiddie coasters soon led to the development of "junior" models that had lift hills up to . A notable example of a junior coaster is the Sea Dragon – the oldest operating roller coaster from PTC's designer John Allen – which opened at Wyandot Lake in 1956 near Powell, Ohio.

Hypercoaster

A hypercoaster, occasionally stylized as hyper coaster, is a type of roller coaster with a height or drop of at least . Moonsault Scramble, which debuted at Fuji-Q Highland in 1984, was the first to break this barrier, though the term hypercoaster was coined by Cedar Point and Arrow Dynamics with the opening of Magnum XL-200 in 1989. Hypercoasters have become one of the most predominant types of roller coasters in the world, now led by manufacturers Bolliger & Mabillard and Intamin.

Giga coaster

A giga coaster is a type of roller coaster with a height or drop of at least . The term was coined during the construction of the Millennium Force roller coaster built by Intamin on Cedar Point amusement park in 2000. Morgan and Bolliger & Mabillard have both also produced roller coasters in this class.

{| class="wikitable"

! Name !! Park !! Manufacturer !! Status !! Opened !! Height !! Drop !!

| Millennium Force || Cedar Point || Intamin || || May 13, 2000 || || ||

| Steel Dragon 2000 || Nagashima Spa Land || Morgan || || August 1, 2000 || || ||

| Pantherian || Kings Dominion || Intamin || || April 2, 2010 || || ||

| | Leviathan || Canada's Wonderland || Bolliger & Mabillard || || May 6, 2012 || || ||

| Fury 325 || Carowinds || Bolliger & Mabillard || || March 25, 2015 || || ||

| Red Force || Ferrari Land || Intamin || || April 7, 2017 || || N/A ||

| Orion || Kings Island || Bolliger & Mabillard || || July 2, 2020 || || ||

| Tormenta Rampaging Run || Six Flags Over Texas || Bolliger & Mabillard || || 2026 || || ||

Strata coaster

A strata coaster is a type of roller coaster with a height or drop of at least . As with the other two height classifications, the term strata was first introduced by Cedar Point with the release of Top Thrill Dragster, a roller coaster that opened in 2003. Kingda Ka was the second strata coaster, and it opened at Six Flags Great Adventure in 2005 as the tallest roller coaster in the world with a height of . Top Thrill Dragster closed in 2021 following an incident in which a guest was severely injured while standing in line. The ride was subsequently refurbished and modified, and it reopened in 2024 as Top Thrill 2. Kingda Ka was permanently closed on November 10, 2024, and was later demolished in February 2025.

Superman: Escape From Krypton, a coaster, operated at Six Flags Magic Mountain from 1997 to 2024. It was not typically classified as a strata coaster due to its shuttle coaster design, where trains do not travel a complete circuit.

{| class="wikitable"

! Name !! Park !! Manufacturer !! Status !! Opened !! Modified !! Height !!

| Top Thrill 2 || Cedar Point || Intamin/Zamperla || || May 4, 2003 || May 4, 2024 || ||

| Kingda Ka || Six Flags Great Adventure || Intamin || || May 21, 2005 || || ||

Exa coaster

An exa coaster is a type of roller coaster with a height or drop of at least . The term exa was first introduced by Intamin for Falcons Flight, a coaster that opened at Six Flags Qiddiya City in December 2025. Upon opening, it became the tallest, fastest, and longest coaster in the world, surpassing the previous records once held by Top Thrill 2, Formula Rossa, and Steel Dragon 2000.

{| class="wikitable"

! Name !! Park !! Manufacturer !! Status !! Opened !! Height !!

| Falcons Flight || Six Flags Qiddiya City || Intamin || || December 31, 2025 || ||

Major roller coaster manufacturers

Allan Herschell Company (defunct, merged with Chance Rides)
Arrow Development (acquired by Huss Trading Corporation, formed into Arrow-Huss)
Arrow Dynamics (defunct, assets bought by S&S Arrow)
ART Engineering
Arrow-Huss (defunct, reformed as Arrow Dynamics)
B.A. Schiff & Associates
Bolliger & Mabillard
Chance Morgan
Chance Rides
Custom Coasters International (defunct)
D. H. Morgan Manufacturing (acquired by Michael Chance, formed into Chance Morgan)
Dinn Corporation (defunct)
Dynamic Structures
E&F Miler Industries
Fabbri Group
Gerstlauer
Giovanola (defunct)
The Gravity Group
Great Coasters International
Hopkins Rides
Intamin
Mack Rides
Maurer AG
Martin & Vleminckx
Philadelphia Toboggan Coasters
Pinfari (defunct)
Premier Rides
Preston & Barbieri
Reverchon SAMC (formerly known as Reverchon Industries)
Rocky Mountain Construction
Roller Coaster Corporation of America (defunct)
Sansei Technologies
S&S - Sansei Technologies (formerly known as S&S Worldwide)
SBF Visa Group
Schwarzkopf (defunct)
TOGO (defunct)
Vekoma
Zamperla
Zierer

Gallery

File:Särkänniemi - Tornado.jpg|Tornado, located at Särkänniemi in Tampere, Pirkanmaa, Finland

File:PKDHypersonicDrop.jpg|Hypersonic XLC, the world's first production Thrust Air 2000. (now defunct)

File:TopThrill2.jpg|Top Thrill 2 (previously known as Top Thrill Dragster) at Cedar Point was the first strata coaster ever built.

File:Rollercoaster expedition geforce holiday park germany.jpg|Riding Expedition GeForce at Holiday Park, Germany

File:Cedar point raptor1.jpg|Raptor, a steel inverted coaster, is located at Cedar Point in Sandusky, Ohio, United States.

File:Wooden roller coaster txgi.jpg|Texas Giant at Six Flags Over Texas before being refurbished into a hybrid steel-wood coaster New Texas Giant.

File:Image-Lightning Racer at Hersheypark station.jpg|Lightning Racer at Hersheypark is a racing, dueling roller coaster made by GCI.

File:Linnanrollerc.JPG|This all-wooden roller coaster, built in 1951, dominates the Linnanmäki amusement park in Helsinki, Finland.

File:Coney Island 2010 109.JPG|Coney Island Cyclone in Brooklyn, New York was built in 1927 and refurbished in 1975.

File:PKI-Son of Beast.jpg|Son of Beast in Kings Island was the only wooden coaster to have a vertical loop.

File:Kennywood Jack Rabbit DSCN2786.JPG|Jack Rabbit at Kennywood Park outside of Pittsburgh, Pennsylvania, United States was built in 1920.

File:Knoebels Phoenix.JPG|Phoenix, built in 1947, at Knoebels Amusement Resort in Elysburg, Pennsylvania, United States.

File:Baron 1889.jpg|Baron 1898 at Efteling in Kaatsheuvel, The Netherlands

File:Swamp Fox at Family Kingdom, Myrtle Beach, SC.jpg|Swamp Fox at Family Kingdom in Mrytle Beach, South Carolina.

File:Griffon (Busch Gardens Europe) 02.JPG|Griffon splashing down into a pool at Busch Gardens Williamsburg, US.

File:Great Bear Helix.jpg|Great Bear is the first steel inverted coaster in Pennsylvania, located at Hersheypark.

File:Behemoth (Canada's Wonderland) 06.jpg|Behemoth, at Canada's Wonderland, at one point the highest and fastest coaster in Canada

File:Busch Gardens Tampa Bay - Montu.jpg|"Montu", a popular inverted roller coaster at Busch Gardens Tampa Bay, US

File:Millennium Force (Cedar Point) 06.JPG|Millennium Force at Cedar Point

File:Black mamba first drop.jpg|Black Mamba at Phantasialand, Germany

File:Euromir.jpg|Euro-Mir, a spinning roller coaster at Europa-Park in Rust, Germany

File:Rollercoaster dragon khan universal port aventura spain.jpg|Dragon Khan at PortAventura Park in Salou (Tarragona), Spain

File:Kennywood Thunderbolt DSCN2744.JPG|Thunderbolt at Kennywood outside of Pittsburgh, Pennsylvania, US was built in 1968.

File:Leviathan Reactions.jpg|Leviathan at Canada's Wonderland, the tallest coaster in Canada (, )

File:Kingda Ka.jpg|Kingda Ka at Six Flags Great Adventure was the world's tallest roller coaster and was the second strata coaster in the world after Top Thrill Dragster.

File:Ee-train.jpg|Expedition Everest, a roller coaster at Disney's Animal Kingdom in Walt Disney World

File:Porcijunkulovo, Čakovec, 2017. - vlak smrti.jpg|A small roller coaster at a local festival in Čakovec, Croatia

File:Hyperion, Energylandia - 2018 Aug 06.jpg|Hyperion at Energylandia in Zator, Lesser Poland Voivodeship, Poland

File:Carowinds-Fury325Entry.JPG|Fury 325 at Carowinds is the tallest roller coaster to use a traditional chain lift.

File:Superman Ultimate Flight (Six Flags Great Adventure).jpg|alt=Superman The Ride|Superman: Ultimate Flight, a flying coaster at Six Flags Great Adventure

File:Revere Beach Cyclone Postcard Crop.JPG|alt=|The Cyclone, Revere Beach, Massachusetts, USA

</gallery>

Notes

References

External links

Roller Coaster Glossary
Roller Coaster History – History of the roller coaster
Roller Coaster Database – Information, statistics and photos for over 3700 roller coasters throughout the world
Roller Coaster Patents – With links to the U.S. Patent office
Roller Coaster Physics () – Classic physics explained in terms of roller coasters
How Roller Coasters Work
3D Animated Roller Coaster in MS Excel
Magic Mountain Announces 'Twisted' Plans for Iconic Colossus Roller Coaster
National Roller Coaster Museum & Archives – Collection of historic ride vehicles

Roller coaster

History

The Russian Mountains and the Aerial Promenades

Scenic railways

Etymology

Mechanics

Safety mechanisms and technology

Block system

Seat restraints

Types of restraints

Restraint locking mechanisms

Braking systems

Programmable logic controller

Roller coaster design and statistics

Health concerns

Types

By train type

By model

By track layout

By mechanics

By height

Hypercoaster

Giga coaster

Strata coaster

Exa coaster

Major roller coaster manufacturers

Gallery

See also

Notes

References

Further reading

External links