A roller coaster is a type of amusement ride that employs a form of elevated railroad track designed with tight turns, steep slopes, and sometimes inversions. People ride along the track in open cars, and the rides are often found in amusement parks and theme parks around the world. LaMarcus Adna Thompson obtained one of the first known patents for a roller coaster design in 1885, related to the Switchback Railway that opened a year earlier at Coney Island. The track in a coaster design does not necessarily have to be a complete circuit, as shuttle roller coasters demonstrate. Most roller coasters have multiple cars in which passengers sit and are restrained. Two or more cars hooked together are called a train. Some roller coasters, notably Wild Mouse roller coasters, run with single cars.
The Russian mountain and the Aerial PromenadesEdit
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 21 and 24 m (70 and 80 feet), 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. The name Russian Mountains to designate a roller coaster is preserved in many languages (e.g. the Spanish montaña rusa), but the Russian term for roller coasters is американские горки ("amerikanskiye gorki"), which translates to "American mountains."
The first modern roller coaster, the Promenades Aeriennes, opened in Parc Beaujon in Paris on July 8, 1817. It featured 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 Spanish entrepreneur Joseph Oller, co-founder of the Moulin Rouge music hall, constructed the Montagnes Russes de Belleville, "Russian Mountains of Belleville" with 656 feet (200 m) of track laid out in a double-eight, later enlarged to four figure-eight-shaped loops.
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 at Coney Island in Brooklyn, New York, in 1884. Passengers climbed to the top of a platform and rode a bench-like car down the 600-foot (183 m) track up to the top of another tower where the vehicle was switched to a return track and the passengers took the return trip. This track design was soon replaced with an oval complete circuit. In 1885, Phillip Hinkle introduced the first full-circuit coaster with a lift hill, the Gravity Pleasure Road, which became the most popular attraction at Coney Island. Not to be outdone, in 1886 Thompson patented his design of roller coaster that included dark tunnels with painted scenery. "Scenic Railways" were soon found in amusement parks across the county.
Popularity, decline and revivalEdit
By 1919, the first underfriction roller coaster had been developed by John Miller. Soon, roller coasters spread to amusement parks all around the world. Perhaps the best known historical roller coaster, Cyclone, was opened at Coney Island in 1927.
The Great Depression marked the end of the golden age of roller coasters, and theme parks, in general, went into decline. This lasted until 1972 when the instant success of The Racer at Kings Island began a roller coaster renaissance which has continued to this day.
In 1959, Disneyland introduced a design breakthrough with Matterhorn Bobsleds, the first roller coaster to use a tubular steel track. Unlike wooden coaster rails, tubular steel can be bent in any direction, allowing designers to incorporate loops, corkscrews, and many other maneuvers into their designs. Most modern roller coasters are made of steel, although wooden coasters and hybrids are still being built.
There are several explanations of 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. This design was abandoned in favor of fitting the wheels to the sled or other vehicles, but the name endured.
Another explanation is that it originated from a ride located in a roller skating rink in Haverhill, Massachusetts in 1887. A toboggan-like sled was raised to the top of a track which consisted of hundreds of rollers. This Roller Toboggan then took off down gently rolling hills to the floor. The inventors of this ride, Stephen E. Jackman and Byron B. Floyd, claim that they were the first to use the term "roller coaster".
The term jet coaster is used for roller coasters in Japan, where such amusement park rides are very popular.
In many languages, the name refers to "Russian mountains". Contrastingly, in Russian, they are called "American mountains". In the Scandinavian languages, the roller coaster is referred as "mountain-and-valley railway". German knows the word "Achterbahn", stemming from "Figur-8-Bahn", like Dutch "Achtbaan", relating to the form of the number 8 ("acht" in German and also Dutch).
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. 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.
Not all coasters feature a lift hill, however. A train may also be set into motion by a launch mechanism such as a flywheel, linear induction motor (LIM), linear synchronous motor (LSM), 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. One notable exception is a powered roller coaster, which instead of relying on gravity, it uses one or more motors to propel the trains along the course.
In 2006, NASA announced that it would build a system using principles similar to those of a roller coaster to help astronauts escape the Ares I launch pad in an emergency, although this has since been scrapped along with the rest of the Ares program.
A variety of safety mechanisms protect riders on roller coasters. One of these is the block system. Most large roller coasters have the ability to run two or more trains at once, and 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, such as preventing dispatch from the station, stopping a lift, or simply applying brakes. 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.
Another key to safety is the programmable logic controller (PLC), an integral component of a roller coaster's computer system. Multiple PLCs 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 as well.
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 its 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 try to stay in the range of 4–6Gs (40–60 m s−2) as a maximum for positive g-force acceleration, which increases the feeling of weight and pushes riders downward into their seat. For negative g-force, or the feeling of weightlessness, the target is 1.5-2Gs (15–20 m s−2) as a maximum. These fall into a range considered safe to a majority of the population. Lateral acceleration is also typically kept under 2Gs using various techniques including the banking of curves.
Roller coasters are statistically very safe when compared to other activities, but despite all the safety measures in place, accidents still occur. The U.S. Consumer Product Safety Commission estimates that 134 park guests required hospitalization in 2001 and that fatalities related to amusement rides average two per year. According to a study commissioned by Six Flags, 319 million people visited amusement parks in 2001. The study concluded that a visitor has a one-in-500-million chance of being fatally injured, which is less likely than being injured in a golf cart or folding lawn chair.
Controversy about safety has increased over the years as roller coasters become more extreme. There have been suggestions that these may be subjecting passengers to translational and rotational accelerations capable of causing brain injury. In 2003, a report from the Brain Injury Association of America concluded, "There is evidence that roller coaster rides pose a health risk to some people some of the time. Equally evident is that the overwhelming majority of riders will suffer no ill effects." A similar report in 2005 linked roller coasters and other thrill rides with the potential triggering of abnormal heart conditions that could lead to death. Autopsies have shown that some of these were due to undetected, preexisting heart conditions.
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 typically renowned for producing "air time" through the use of negative G-forces when reaching the crest of some hill elements. Newer types of track, such as I-Box and Topper introduced by Rocky Mountain Construction, improve the ride experience on wooden coasters, lower maintenance costs, and add the ability to invert riders.
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 newer variations such as stand-up and flying models position the rider in different ways to change the experiences. A flying model, for example, is a suspended roller coaster where the riders lie facing forward and down 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. Also new track elements – usually types of inversions – are often introduced to provide entirely new experiences.
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, 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 25 feet (7.6 m), and still do today. The rise of kiddie coasters soon led to the development of "junior" models that had lift hills up to 45 feet (14 m). A notable example of a junior coaster is the Sea Dragon – the oldest operating roller coaster from PTC's legendary designer John Allen – which opened at Wyandot Lake in 1956 near Powell, Ohio.
A hypercoaster, occasionally stylized as hyper coaster, is a type of roller coaster with a height or drop of at least 200 feet (61 m). Moonsault Scramble, which debuted at Fuji-Q Highland in 1984, was the first to break this barrier, though the term hypercoaster was first 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.
A giga coaster is a type of roller coaster with a height or drop of at least 300 feet (91 m). The term was coined during a partnership between Cedar Point and Intamin on the construction of Millennium Force. Although Morgan and Bolliger & Mabillard have not used the term giga, both have also produced roller coasters in this class.
|Millennium Force||Cedar Point||Intamin||Operating||May 13, 2000||310 feet (94 m)||300 feet (91 m)|
|Steel Dragon 2000||Nagashima Spa Land||Morgan||Operating||August 1, 2000||318.3 feet (97.0 m)||306.8 feet (93.5 m)|
|Intimidator 305||Kings Dominion||Intamin||Operating||April 2, 2010||305 feet (93 m)||305 feet (93 m)|
|Leviathan||Canada's Wonderland||Bolliger & Mabillard||Operating||May 6, 2012||306 feet (93 m)||306 feet (93 m)|
|Fury 325||Carowinds||Bolliger & Mabillard||Operating||March 25, 2015||325 feet (99 m)||320 feet (98 m)|
|Red Force||Ferrari Land||Intamin||Operating||April 7, 2017||367 feet (112 m)||N/A|
|Orion||Kings Island||Bolliger & Mabillard||Operating||July 2, 2020||287 feet (87 m)||300 feet (91 m)|
A strata coaster is a type of roller coaster with a height or drop of at least 400 feet (120 m). As with the other two height classifications, the term strata was first introduced by Cedar Point with the release of Top Thrill Dragster, a 420-foot-tall (130 m) roller coaster that opened in 2003. Another strata coaster, Kingda Ka, opened at Six Flags Great Adventure in 2005 as the tallest roller coaster in the world featuring a height of 456 feet (139 m). Superman: Escape From Krypton exceeded 400 feet (120 m) back when it opened in 1997, but its shuttle coaster design where the trains don't travel a complete circuit usually prevents the roller coaster from being classified in the same category.
|Top Thrill Dragster||Cedar Point||Intamin||Operating||May 4, 2003||420 feet (130 m)|
|Kingda Ka||Six Flags Great Adventure||Intamin||Operating||May 21, 2005||456 feet (139 m)|
Major roller coaster manufacturersEdit
- 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)
- Arrow-Huss (defunct, reformed as Arrow Dynamics)
- B.A. Schiff & Associates
- Bolliger & Mabillard
- Bradley and Kaye (defunct)
- Chance Morgan
- Chance Rides
- Custom Coasters International (defunct)
- D. H. Morgan Manufacturing (acquired by Michael Chance, formed into Change Morgan)
- Dinn Corporation (defunct)
- Dynamic Structures
- E&F Miler Industries
- Fabbri Group
- Giovanola (defunct)
- The Gravity Group
- Great Coasters International
- Hopkins Rides
- Mack Rides
- Maurer AG
- Martin & Vleminckx
- Philadelphia Toboggan Coasters
- Pinfari (defunct)
- Premier Rides
- Preston & Barbieri
- Reverchon Industries (defunct)
- 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)
Raptor, a steel inverted coaster, is located at Cedar Point in Sandusky, Ohio, United States.
Lightning Racer at Hersheypark is a racing, dueling roller coaster made by GCI.
This all-wooden roller coaster, built in 1951, dominates the Linnanmäki amusement park in Helsinki, Finland.
Coney Island Cyclone in Brooklyn, New York was built in 1927 and refurbished in 1975.
Great Bear is the first steel inverted coaster in Pennsylvania, located at Hersheypark.
Thunderbolt at Kennywood outside of Pittsburgh, Pennsylvania was built in 1968.
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- 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