Dictionary and translator for handheld
New : sensagent is now available on your handheld
A windows (pop-into) of information (full-content of Sensagent) triggered by double-clicking any word on your webpage. Give contextual explanation and translation from your sites !
With a SensagentBox, visitors to your site can access reliable information on over 5 million pages provided by Sensagent.com. Choose the design that fits your site.
Improve your site content
Add new content to your site from Sensagent by XML.
Crawl products or adds
Get XML access to reach the best products.
Index images and define metadata
Get XML access to fix the meaning of your metadata.
Please, email us to describe your idea.
Lettris is a curious tetris-clone game where all the bricks have the same square shape but different content. Each square carries a letter. To make squares disappear and save space for other squares you have to assemble English words (left, right, up, down) from the falling squares.
Boggle gives you 3 minutes to find as many words (3 letters or more) as you can in a grid of 16 letters. You can also try the grid of 16 letters. Letters must be adjacent and longer words score better. See if you can get into the grid Hall of Fame !
Change the target language to find translations.
Tips: browse the semantic fields (see From ideas to words) in two languages to learn more.
1.a motorbike that can be pedaled or driven by a low-powered gasoline engine
two-wheeler; two-wheeled vehicle[Classe]
véhicule terrestre motorisé (fr)[Classe]
chose, véhicule qui roule (fr)[ClasseParExt...]
bike, motorbike, motorcycle[Hyper.]
motorbike; motorized bike; motorized bicycle; moped[ClasseHyper.]
motorized bicycle (n.)
Transport accidents (V01-V99)[Classe]
motorized bicycle (n.)
A motorized bicycle, motorbike, cyclemotor, or vélomoteur is a bicycle with an attached motor and transmission used either to power the vehicle unassisted, or to assist with pedaling. Since it always retains both pedals and a discrete connected drive for rider-powered propulsion, the motorized bicycle is in technical terms a true bicycle, albeit a power-assisted one. However, for purposes of governmental licensing and registration requirements, the type may be legally defined as a motor vehicle, motorcycle, moped, or a separate class of hybrid vehicle. Powered by a variety of engine types and designs, the motorized bicycle formed the prototype for what would later become the motorcycle.
Motorized bicycles have utilized all variety of engines, from internal-combustion (IC) two-stroke and four-stroke gasoline engines to electric, diesel, or even steam propulsion. Most motorized bicycles are based or derived from standard general-purpose bicycle frame designs and technologies, although exceptions abound. In addition, modifications to a standard bicycle frame to support motorization may be extensive.
The earliest motorized bicycles were ordinary utility bicycles fitted with an add-on motor and transmission to assist normal pedal propulsion, and it is this form which principally distinguishes the motorized bicycle from a moped or motorcycle. In a day when gasoline engine and transmission designs were in their infancy, and power-to-weight ratios were low, a dual-purpose propulsion system seemed particularly advantageous. As time went on, pedal propulsion was increasingly replaced by constant use of a two or four-stroke gasoline engine. Nevertheless, the concept of using motor assist for the ordinary bicycle has persisted, and the concept has periodically resurfaced over the years, particularly in times of austerity or fuel shortages. In countries where automobiles and/or fuels are prohibitively expensive, the motorized bicycle has enjoyed continued popularity as a primary mode of transportation.
The design of the motorized bicycle or motorbike varies widely according to intended use. Some motorized bicycles are powerful enough to be self-propelled, without use of the pedals. A development of the motorized bicycle is the moped, which commonly has only a vestigial pedal drive fitted primarily to satisfy legal requirements, and suitable only for starting the engine or for emergency use. The alternate design philosophy to the moped is the so-called motor-assist or pedal-assist bicycle. These machines utilize the pedals as the dominant form of propulsion, with the motor used only to give extra assistance when needed for hills or long journeys.
The two-wheeled pedal powered bicycle was first conceived in Paris in the 1860s. By 1888 John Dunlop's pneumatic tire and the chain drive made possible the safety bicycle, giving the bicycle its modern form.
The origins of the motorized bicycle or motorbike can be traced back to the latter part of the 19th century when experimenters began attaching steam engines to stock tricycles and quadracycles. The first true motorized bicycle is generally considered to be the French Michaux-Perreaux steam velocipede of 1868. The Michaux-Perreaux was followed by the American Roper steam velocipede of 1869, built by Sylvester H. Roper of Roxbury, Massachusetts. Roper demonstrated his machine at fairs and circuses in the eastern U.S. in 1867, and built a total of 10 examples. These early attempts at propelling a bicycle by means other than the human body were not successful, either practically or commercially. It was not until the 1890s, with the advent of the gasoline-powered internal combustion engine (ICE), that the motorized bicycle could be considered a practical machine.
One of the first gas motor-assisted bicycle designs was developed by Félix Millet in France around 1892/93. Millet's designs had both pedals and a fixed-crankshaft radial engine built into the back wheel.
In 1896, E.R. Thomas of Buffalo, New York began selling gasoline engine kits for propelling ordinary bicycles. After forming the Thomas Motor Company, he began selling complete motor-assisted bicycles under the name Auto-Bi. The Auto-Bi is generally considered to be the first production motorized bicycle made in the United States.
The 1900 Singer Motor Wheel was a wheel incorporating a small ICE powerplant that could be substituted for the front wheel of a bicycle. A later design, the 1914 Smith Motor Wheel, was attached to the rear of a bicycle by means of an outrigger arm, a design later taken up by Briggs & Stratton.
In Belgium, the Minerva company, later known for luxury cars, started out manufacturing standard safety bicycles in 1897, before expanding into light cars and "motocyclettes" from 1900. They produced lightweight clip-on engines that mounted below the front down tube, specifically for Minerva bicycles, but also available in kit form suitable for almost any bicycle. The engine drove a belt turning a large gear wheel attached to the opposite side of the rear wheel as the chain. By 1901 the kit engine was a 211cc unit developing 1.5 hp, comfortably cruising at 30 km/h (19 mph) at 1,500 rpm, capable of a top speed of 50 km/h (31 mph), and getting fuel consumption in the range of 3 L/100 km (94 mpg-imp; 78 mpg-US). These kits were exported around the world to countries including the United Kingdom, France, Germany, the Netherlands, Australia, and other British territories of the time.
As engine power increased, frame ruptures became increasingly common, and by 1903 Minerva had developed an in-frame design with the engine mounted above the bottom bracket, while still also offering the clip-on kit. From 1904 Minerva began focussing more on car production, and while development and production of the Minerva motorized bicycles continued through to about 1909, they became increasing a less significant part of the company.
In England, the Phelon & Rayner motorized bicycle was introduced in 1901, and was sold through 1903. The original Phelon & Rayner machine used a 260cc, 1.75-horsepower gasoline engine mounted to a standard 28-inch bicycle frame.
In the United States, the California Motor Company was formed in 1901 to sell complete gasoline-engine motorbikes in San Francisco, Oakland, and San Jose. The company began with a 200cc single-cylinder, 1.5-horsepower, four-stroke engine designed by R.C. Marks. Mounted to a standard bicycle frame, the California could reach speeds of approximately 25 mph (40 km/h). The California weighed around 75-80 pounds, and featured a leading-link front fork, a leather spring saddle, a front Duck roller brake, and an Atherton rear coaster brake. A leathern belt-drive directly connected the engine output shaft to the rear wheel. During the summer of 1903, George A. Wyman rode a 200cc, 1.5-horsepower California from San Francisco to New York City, becoming the first person to cross the North American continent aboard a motor vehicle.
As early as 1903, motorized bicycles were being fitted with larger and heavier loop frames designed to specifically accommodate larger displacement engines, which produced higher speeds. These new motorbike frame designs soon incorporated a new riding position which no longer centered the rider over the pedals, but instead moved the rider's feet forward, where they rested on pegs or platforms. The new riding position was designed to increase rider comfort and control when using the motor for propulsion, and soon owners began relying on the gasoline motor for all but emergency use. Front suspension and (on some machines) rear suspension increased control at high speeds. By 1915, some manufacturers were omitting pedal propulsion entirely, resulting in the introduction of the first true modern motorcycle.
At the same time, purpose-built motobikes like the Derny and VéloSoleX, with stronger frames and sometimes with only token ability to be wholly human-powered were introduced in France. Many years later, manufacturers would re-introduce this concept as the moped, a small motorcycle fitted with pedals that can be used as a starting aid but which cannot, practically, be ridden under pedal power alone.
In France, the gasoline-powered motorized bicycle, known popularly as the vélomoteur or vélomoto was popular during the 1930s, and continued to be widely sold in early postwar years as a means of transportation during a period of gasoline shortages and limited automobile production.
In the 1930s, the United Kingdom and its former colonies also developed “clip-on” motors for bicycles (35 to 49cc), followed by the “Autocycle” with a purpose-built frame incorporating pedals and a two-stroke engine (often a 98cc Villiers engine), but without a gearbox (e.g. the Malvern Star). Autocycle manufacturers were well established in countries such as Britain and Australia before World War II.
In 1939, the American bolt-on Whizzer gas-engined bicycle kit was introduced, utilizing a 138cc side-valve four-stroke engine and belt drive. Despite some initial engine reliability issues, the Whizzer enjoyed modest popularity during World War II due to fuel and automobile shortages, and was used by war plant workers and others with priority for transportation. After the war, the Whizzer became popular with youth who desired faster speeds from their heavy cruiser-framed Schwinn bicycles. In 1949, the company introduced a complete production bike, the Pacemaker. Sales of the Whizzer conversion kits continued until 1962. In the United Kingdom, the motorized bicycle saw a resurgence of popularity and such bolt-on motors as the Cyclaid and the Cyclemaster motor wheel saw brief periods of immense popularity. The Cyclemaster, which was a hub motor which could be fitted to an ordinary bike, started at 25cc (painted black), but later the size went up to 32cc (painted grey).
Elsewhere in Europe the motorized bicycle continued to be popular, particularly in France and Italy. An Italian manufacturer, Vincenti Piatti, designed a 50cc engine for driving portable lathes and this was also used to power a bicycle frame in the form of the Mini Motore. Piatti later licensed the design to Trojan for production in Britain as the Trojan Minimotor. In West Germany, a compression-ignition (diesel) engine kit using an 18cc variable head engine made by Lohmann was produced during the 1950s. In France, where postwar reconstruction, taxes, and fuel shortages limited automobile access, motorized bicycle kits and complete models were produced by a variety of smaller manufacturers, often using a two-stroke gasoline engine mounted above the front wheel. In 1946, production of the very successful French VELOSOLEX commenced, continuing until 1988. The VéloSoleX was a mass-produced motorized bicycle, which used a tire roller (friction drive) to the front wheel. After French production ceased, the VELOSOLEX continued to be produced in China and Hungary. An in-wheel gasoline engine was used on the Honda P50 moped which ceased production in 1968. The velomoteur and motor scooter enjoyed a second renaissance in the 1960s and 1970s as a new generation of youth discovered they could ride a motorized vehicle without need of a driver's license. Other countries had relaxed licencing requirements e.g. lower age limits for motorized bicycles, which increased their popularity.
During the 1960s, the moped craze arrived in the United States, the United Kingdom, and other countries. Mopeds had been produced for years in France and Italy, but were largely unknown in other countries. The moped's surge in popularity was motivated by the arrival of new machines produced in Japan by Honda, Yamaha, and other manufacturers, which could be operated without a driving license and with a minimum of effort to meet existing regulation by the authorities. The new moped designs were really low-powered motorcycles, equipped with pedals largely to meet legal requirements. Most could only be pedaled with difficulty over short distances on level ground.
Today, motorized bicycles are still being developed both as complete designs and as add-on motor kits for use on standard bicycles, either by part-time hobbyists or by commercial manufacturers. With the development of new, lighter, and more powerful batteries, electric motors for power assist are increasingly popular, often using hub motors to facilitate after-market conversions. Converting bicycles or tricycles has proven useful for some people with physical disabilities such as knee injury or arthritis.
In 2003 production of the French gasoline-powered VELOSOLEX ceased in Hungary. However, production continues in China and has restarted in France. In the United States, Velosolex America markets the VELOSOLEX worldwide.
Currently there are several companies manufacturing aftermarket internal combustion engine (ICE) motor conversion kits for conventional bicycles. These include both four-stroke and two-stroke gasoline engine designs. Among these, Golden Eagle Bike Engines currently produces a rear-engine (rack-mounted) kit using a belt to drive the rear wheel. Staton-Inc., a motorized bicycle manufacturer of long standing, also uses a rack-mount with a either a tire roller-mount (friction drive) or a chain-driven, geared transmission. Other manufacturers produce kits using small two- or four-stroke gas engines mounted in the central portion of the bicycle frame, and incorporating various types of belt- or chain-driven transmissions and final drives. Some of these brands include Jiangdu Flying Horse Gasoline Engine Factory Ltd., EZ Motorbike Company, Inc., Mega Motors Inc., and Grubee Inc.
Motorized bicycles using electric motors have also re-entered the market. Electrically powered bicycles use batteries, which have a limited capacity and thus a limited range, particularly when large amounts of power are utilized. This design limitation means that the use of the electric motor as an assist to pedal propulsion is more emphasized than is the case with an internal combustion engine. While costly, new types of lithium batteries along with electronic controls now offer users increased power and range while reducing overall weight. Newer electric motor bicycle designs are gaining increasing acceptance, particularly in countries where increasing traffic congestion, aging populations, and concern for the environment have stimulated development and usage.
The legal definition and status of motorized bicycles using internal combustion engines varies from nation to nation, and in some cases, on local rules and regulations.
Current laws in most states/territories allow the use of ICE motorized bicycles, provided it does not produce more than 200 watts of power (approximately 0.27 horsepower). Queensland is the only state which exclusively bans the use of ICE motorized bicycles. Well known business such as Zbox Australia and Rock Solid Engines provide de-tuned ICE engines with compliance certificates, proving they produce under 200 watts of power.
In Canada, motorized bicycles using an internal combustion engine are illegal on public roads unless the vehicle can be registered as a limited-speed motorcycle. Canadian registration of a newly assembled or imported motorized bicycle as a limited-speed motorcycle requires presentation of the manufacturer's Certificate of Origin establishing title, along with testing of production bikes for safety and emissions inspection and approval. If the limited-speed motorcycle was manufactured on or after September 1, 1988, it must also have an affixed compliance label identifying the vehicle as a limited-speed motorcycle, and that the vehicle meets the criteria for a limited-speed motorcycle that were in force at the time the vehicle was manufactured. Additionally, in order to operate the vehicle on public roads, each driver of a limited-speed motorcycle must 1) possess either a restricted class M licence for limited-speed motorcycles and mopeds or a valid motorcycle licence, 2) have the vehicle insured and registered; 3) possess a valid LSM licence plate, and 4) wear an approved motorcycle helmet.
In France, the laws regulating moped and scooter (cyclomoteur) operation apply as well to the gas-powered motorized bicycle, variously known as a bicyclette motorisée, vélo motorisé, vélomoteur, or vélomoto. Under French law, no person under 14 years of age may operate a gas-powered motorized bicycle (defined as a bicycle with a gasoline motor under 50cc displacement, and capable of a maximum speed of 45 kilometres per hour (28 mph)). All vélomotos or motorbikes must be registered, and all riders without a full driving licence must pass a test and receive a certificate (Brevet de Sécurité Routière, or BSR) consisting of written exam and five hours of practical training, four and a half of which must be on public roads, with a driving school. All operators must carry third-party insurance and wear helmets, and a metal license tab with the owner’s name (Plaque de nom) must be attached to the handlebars. Motorized bicycles are not permitted on French motorways, and riders must use cycle paths where provided.
In the United Kingdom, purchasers of new-construction ICE motorized bicycles must meet a host of regulatory requirements and pass inspections from the DVLA and MSVA in order to register such machines for operation on public roadways. Owners must obtain a EC-type Motorcycle Single Vehicle Type Approval Certification (MSVA), and in order to obtain a DVLA-required insurance certificate, must provide proof from the original seller of the bicycle and engine that both the bicycle and the engine are new and unused. ICE motorized bicycles that are amateur-built, which meet MSVA safety and regulatory standards, and which meet the definition of low powered mopeds (engines of proven output of less than 1kW (1.34HP) and capable of 25 km/h (16 mph) or less) face considerably fewer regulatory requirements.
In the United States, federal law governing ICE motorized bicycles is subject to interpretative rulings by the National Highway Traffic Safety Administration (NHTSA) at the U.S. Department of Transportation. Under current NHTSA rules, a "motor-driven cycle" (a definition that includes a two-wheel vehicle such as a bicycle with an add-on ICE engine of five brake horsepower or less) and a speed capability of more than 20 miles per hour lacks both a Vehicle Identification Number (VIN) and standard onroad safety equipment such as mirrors, turn signal lamps, side marker lamps, and stop lamps, then the vehicle shall not be considered a "motor vehicle" as defined by DOT/NHTSA regulations, but instead is defined as an off-road vehicle (since the lack of a VIN and on-road equipment indicates that a vehicle was not manufactured primarily for use on public roads.) Such off-road vehicles are considered to be neither motor vehicles nor motorcycles, as those terms are defined under federal law. Under present-day NHTSA rules, the final decision as to whether such federally defined off-road vehicles may be legally operated on public roads is determined by the laws of the state in which the vehicle is being operated.
The legal status of an ICE motorized bicycle in the United States is presently determined by the laws of each state and/or local jurisdiction. Several states allow ICE motorbikes to be operated on roadways without registration, tax, or licensing in the same manner as bicycles, providing certain restrictions are observed. Many state jurisdictions use limits on top speed and/or engine displacement to determine if ICE motorized bicycles require registration and licensing - sometimes as mopeds, sometimes as motorcycles. Some states prohibit the use of motorbikes on multi-use recreational paths or high-speed, limited access roadways, while others require additional safety equipment for operation on public roads, such as wearing a helmet. Many U.S. cities and other local jurisdictions may impose additional restrictions upon ICE motorized biycles when operated on public streets and roadways.
The laws on electric motor-powered bicycles or E-bikes vary considerably according to country. In many nations, a top limit on the power of the electric motor is imposed if the vehicle is to be legally classified and/or taxed as a motorized bicycle.
In Canada, eight provinces currently allow the operation of motorized bicycles using low-powered electric motors capable of a maximum speed of 32 km/hour under the definition of power-assisted bicycles. The Province of Ontario introduced a three-year trial ending October 2009 for these bicycles, which are now officially defined as Power-Assisted Bicycles by the Ontario Ministry of Transportation with specific parameters.
In accordance with federal law, all power-assisted bicycles, regardless of province, must 1) have a maximum of three wheels; 2) have steering handlebars and pedals; 3) use an electric motor of 500W output or less for propulsion; 4) must not be capable of speeds faster than 32 km/h (20 mph) on level ground using motor power alone; and 5) bear a permanently affixed label by the manufacturer stating in both official languages that the vehicle conforms to the federal definition of a power-assisted bicycle. Power-assisted bicycles are required to use electric motors only, and may not be operated on certain provincial controlled-access highways or where prohibited by municipal law. Age restrictions vary from province to province, but all require an approved helmet. Some versions (e.g., if capable of operating without pedaling) of e-bikes require a drivers license in some provinces and have age restrictions. Vehicle licenses and liability insurance are not required. E-bikes are required to follow the same traffic regulations as regular bicycles.
In Japan, electric motor bicycles are required to incorporate a pedal-assist drive in order to avoid registration as a motorcycle.
In the United States, federal law exempts low-speed electric bicycles from Dept. of Transportation and NHTSA motor vehicle regulations, and they are regulated under federal law in the same manner as ordinary bicycles. The Consumer Product Safety Act defines the term ‘‘low speed electric bicycle’’ as a two- or three-wheeled vehicle with fully operable pedals and an electric motor of less than 750 watts (1 horsepower), whose maximum speed on a paved level surface, when powered solely by such a motor while ridden by an operator who weighs 170 pounds, is less than 20 mph (15 U.S.C. 2085(b)). At the present time, neither the DOT nor the NHTSA restrict the assembly of e-bikes for use on public roads, although commercially manufactured e-bikes capable of speeds greater than 20 mph are considered motor vehicles and thus subject to DOT and NHTSA safety requirements. Consequently, the laws of the individual state and/or local jurisdiction govern the type, motor wattage, and speed capability of e-bikes used on public roadways (see Electric bicycle laws). As long as the bicycle is capable of pedal propulsion, most U.S. states currently do not distinguish between designs that may be self-propelled by the electric motor versus pedal assist designs in which the electric motor assists pedal propulsion by the rider.
Power can be applied to the drive wheel in a number of ways:
Small two-stroke, bolt-on gasoline bike motors and adapter kits for bicycles had a brief surge in popularity in the late 1960s and early 1970s in the U.S. and Canada. These engine kits were designed or marketed by both small and large companies, including Bike Bug, Tas Spitz, and even Sears, which sold the Free Spirit, and Little Devil engine kits. Most of these kits were designed around lightweight, low-cost two-stroke engines from Japanese manufacturers such as Tanaka. During the late 1990s, the arrival of inexpensive two-stroke engines and chain-drive transmissions from mainland China, designed to mount to bicycle frames, helped spark a new wave of U.S. consumer interest in motorized bicycles. Increasingly tighter U.S. emissions laws have made it more difficult for traditional two-stroke engines to pass emissions requirements, though Tanaka Inc. has since introduced a clean-burning "Pure Fire" line of two-stroke motors.
Increasingly, designers of ICE motorized bicycles and other small-engined off-road vehicles are turning to four-stroke gasoline engines, which consume less fuel and oil, and tend to be quieter while producing fewer emissions. The Honda 49cc GXH-50, Shandong HuaSheng 49cc 142F, Robin/Subaru 25cc, and other small four-stroke engines are commonly used as part of an engine/transmission combination for adaptation to a variety of bicycle frames.
Electric bicycles have become one of the most popular vehicles used for transportation across the world. Millions have been sold in Asia and Europe. Sales in the United States and Australia have increase sharply since the late 1990s.
Individuals have built bicycles powered by steam and air engines, and there are many known jet propelled bicycles. No large-scale manufacture of any of these is known (though jet-powered bicycles have been created by hobbyists, as seen in some homemade videos on websites such as Google Video and YouTube).
The environmental effects of motorized bicycles varies according to the power source. Most electric bicycles are considered by some to be zero-emissions vehicles, as they emit no combustion byproducts. However, the environmental effects of electricity generation and power distribution from plants generating power from fossil fuels, as well as manufacturing and disposing of (limited life) high storage density batteries containing toxic materials must also be taken into account. Older two stroke engines, commonly use in motorized bicycles powered by internal combustion engines often emitted more pollution than automobiles due to partial combustion of oil included in the fuel, but this is not the case with four-stroke or newer 2 stroke motor designs.