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Horse and cart at Beamish Museum (England, 2013)
Dockworkers and hand cart (Haiti, 2006)

A cart or dray (Australia and New Zealand[1]) is a vehicle designed for transport, using two wheels and normally pulled by draught animals such as horses, donkeys, mules and oxen, or even smaller animals such as goats or large dogs.

A handcart is pulled or pushed by one or more people.

Over time, the word "cart" has expanded to mean nearly any small conveyance, including shopping carts, golf carts, go-karts, and UTVs, without regard to number of wheels, load carried, or means of propulsion.

History

[edit]

The history of the cart is closely tied to the history of the wheel. Carts have been mentioned in literature as far back as the second millennium B.C. The first people to use the cart may have been Mesopotamians. Handcarts pushed by humans have been used around the world.

Carts were often used for judicial punishments, both to transport the condemned – a public humiliation in itself (in Ancient Rome defeated leaders were often carried in the victorious general's triumph) – and even, in England until its substitution by the whipping post under Queen Elizabeth I, to tie the condemned to the cart-tail (the back part of a cart) and administer him or her a public whipping. Tumbrils were commonly associated with the French Revolution as a mobile stage elevating the condemned on the way to the guillotine: this was simply a continuation of earlier practice when they were used as the removable support in the gallows, before Albert Pierrepoint calculated the precise drop needed for instant severance of the spinal column.

Human-powered carts

[edit]

Of the cart types not animal-drawn, perhaps the most common example today is the shopping cart (British English: shopping trolley), which has also come to have a metaphorical meaning in relation to online purchases (here, British English uses the metaphor of the shopping basket). Shopping carts first made their appearance in Oklahoma City in 1937.

In golf, both manual push or pull and electric golf trolleys are designed to carry a golfer's bag, clubs and other equipment. Also, the golf cart, car, or buggy, is a powered vehicle that carries golfers and their equipment around a golf course faster and with less effort than walking.

A Porter's trolley is a type of small, hand-propelled wheeled platform. This can also be called a baggage cart.[citation needed]

Autocarts are a type of small, hand-propelled wheeled utility carts having a pivoting base for collapsible storage in vehicles. They eliminate the need for plastic or paper shopping bags and are also used by tradespersons to carry tools, equipment or supplies.

A soap-box cart (also known as a billy cart, go-cart, trolley etc.) is a popular children's construction project on wheels, usually pedaled, but also intended for a test race. Similar, but more sophisticated are modern-day pedal cart toys used in general recreation and racing.

The term "go-kart" (also shortened as "kart", an alternative spelling of "cart"), has existed since 1959, and refers to a tiny race car with a frame and two-stroke engine. The old term go-cart originally meant a sedan chair or an infant walker.

Other carts:

  • Rickshaw: Transport for humans.
  • Pushcart: a cart that is pushed by one or more persons.
  • AV cart: a cart traditionally used for transporting audiovisual equipment such as televisions. In more recent years, they have been used as standing desks, especially in school administration.[2][3]
  • Baggage cart: pushed by travelers to carry individual luggage
  • Serving cart: also known as pushcart or go-cart, is a handcart used for serving:
  • Food cart: a mobile kitchen that is set up on the street to facilitate the sale and marketing of street food to people from the local pedestrian traffic.
  • Food service cart: also named serving trolley, for serving the food in a restaurant
  • Pastry cart: for serving pastry
  • Tea cart: also named teacart or Chai Cart,[4] tea trolley and tea wagon, for serving tea or other drinks
  • Human-powered carts
  • Reenactment of 1856 Mormon handcart pioneers
    Reenactment of 1856 Mormon handcart pioneers
  • A walking cart, used for long-distance travel (2007)
    A walking cart, used for long-distance travel (2007)
  • Rickshaw (2004)
    Rickshaw (2004)
  • A street vender (costermonger) with food cart (1908)
    A street vender (costermonger) with food cart (1908)
  • Modern street vender food cart (2007)
    Modern street vender food cart (2007)
  • Airport luggage carts (2020)
    Airport luggage carts (2020)

Animal-powered carts

[edit]

Larger carts may be drawn by animals, such as horses, mules, and oxen. They have been in continuous use since the invention of the wheel, in the 4th millennium BC. Carts may be named for the animal that pulls them, such as horsecart or oxcart. In modern times, horsecarts are used in competition while draft horse showing. A dogcart, however, is usually a cart designed to carry hunting dogs: an open cart with two cross-seats back to back; the dogs could be penned between the rear-facing seat and the back end.

The term "cart" (synonymous in this sense with chair) is also used for various kinds of lightweight, two-wheeled carriages, some of them sprung carts (or spring carts), especially those used as open pleasure or sporting vehicles. They could be drawn by a horse or pony—and if small enough, a dog. Examples include:

  • Cocking cart: short-bodied, high, two-wheeled, seat for a groom behind the box; for tandem driving[5]: 53 [6]
  • Dogcart: light, usually one horse, commonly two-wheeled and high, two transverse seats set back to back[5]: 66 
  • Float: a dropped axle to give an especially low load bed, for carrying heavy or unstable items such as milk churns. The name survives today as a milkfloat.[5]: 79 
  • Governess cart: light, two-wheeled, entered from the rear, body partly or wholly of wickerwork, seat for two persons along each side; also called governess car, tub-cart[5]: 88 
  • Ralli car: a two-wheeled vehicle for two persons facing forward, or four back to back.[5]: 139 
  • Stolkjaerre: two-wheeled, front seat for two, rear seat for the driver; used in Norway[5]: 155 
  • Whitechapel cart: spring cart, light, two-wheeled, especially for family or light delivery service[5]: 173 [7][8]

The builder of a cart may be known as a cartwright; the surname "Carter" also derives from the occupation of transporting goods by cart or wagon.

Carts have many different shapes, but the basic idea of transporting material (or maintaining a collection of materials in a portable fashion) remains. Carts may have a pair of shafts, one along each side of the draught animal that supports the forward-balanced load in the cart. The shafts are supported by a saddle on the horse. Alternatively (and normally where the animals are oxen or buffalo), the cart may have a single pole between a pair of animals. The draught traces attach to the axle of the vehicle or to the shafts. The traces are attached to a collar (on horses), to a yoke (on other heavy draught animals) or to a harness on dogs or other light animals.

Traces are made from a range of materials depending on the load and frequency of use. Heavy draught traces are made from iron or steel chain. Lighter traces are often leather and sometimes hemp rope, but plaited horse-hair and other similar decorative materials can be used.

The dray is often associated with the transport of barrels.[5]: 68 

  • Horse-drawn carts
  • Pony and cart (Netherlands, 1888)
    Pony and cart (Netherlands, 1888)
  • Modern cart (England, 2009)
    Modern cart (England, 2009)
  • Heavy hauling cart (England, circa 1910)
    Heavy hauling cart (England, circa 1910)
  • Racing sulkies are carts (Russia, 2010)
    Racing sulkies are carts (Russia, 2010)
  • Donkey and cart (Uzbekistan, 1964)
    Donkey and cart (Uzbekistan, 1964)
  • Small utility cart with donkey (Ghana, 2020)
    Small utility cart with donkey (Ghana, 2020)
  • Other animals
  • Oxen (Bengal, 2020)
    Oxen (Bengal, 2020)
  • Goat (Netherlands, 2018)
    Goat (Netherlands, 2018)
  • Dog carting
    Dog carting

See also

[edit]
Pulled carts
Horse-drawn
Human powered push-carts
Miscellaneous

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Cart

View on Grokipedia
from Grokipedia
A cart is a heavy, usually two-wheeled designed for hauling loads such as agricultural produce, freight, or materials, often drawn by , oxen, or other draft animals. These typically feature a simple rectangular platform or box mounted on axles, with solid or spoked wheels suited for rough terrain, distinguishing them from lighter carriages intended for passengers. The origins of carts trace back to the or early , with the earliest evidence of wheeled vehicles appearing around 3500 BCE in and the Eurasian steppes, where they revolutionized transport by enabling efficient movement of goods over land. Archaeological finds, including wheel models from dated to circa 3150 BCE and depictions on Sumerian seals, indicate that initial designs used fixed axles and solid wooden s, evolving from sledges to facilitate , farming, and across ancient civilizations like those in and the Indus Valley by the third millennium BCE. Carts have played a pivotal role in by boosting , expanding trade routes, and fostering , with innovations like spoked wheels around 2000 BCE allowing faster and lighter vehicles for chariots and wagons. Notable regional variants include the Red River cart of 19th-century , a lightweight, two-wheeled design pulled by oxen that carried up to 900 pounds in the fur trade across the , and European farm carts with tipping bodies for efficient unloading. Today, while mechanized alternatives dominate, traditional carts persist in developing regions for low-cost transport, and the term extends to modern adaptations like hand-pulled or motorized utility carts in and retail.

Overview

Definition

A cart is a two-wheeled designed for the transportation of or loads, typically drawn by draft animals such as , oxen, or donkeys, and characterized by its open structure and lack of self-propulsion. Its primary purpose has historically been to facilitate the movement of freight over short distances, particularly in agricultural, commercial, or domestic contexts, emphasizing efficiency for lighter payloads compared to larger conveyances. Key distinguishing features of a cart include its lightweight construction, which allows for maneuverability, and a single that supports the two wheels, in contrast to four-wheeled that feature two axles for greater stability and capacity. This design avoids a fixed front axle, enabling the front of the cart to pivot more freely during turns. The term "cart" originates etymologically from the kartr, meaning a wagon or cart, which merged with the native cræt, denoting a or carrying , first appearing in English around century. In modern contexts, the word extends to derivatives such as the , a lightweight, hand-pushed wheeled frame with a for carrying retail items, reflecting an evolution of the original concept for pedestrian use in stores.

Basic Components

The primary components of a traditional cart include the body, , and wheels, which form the core structure for load . The body functions as a platform or designed to hold , typically featuring a flat base supported by cross members known as setlocks and laths for , along with sidelaces for side containment and a bearer for additional . This assembly provides a surface capable of supporting various loads while maintaining structural integrity. The serves as a single central shaft bolted beneath the body, connecting and supporting the two while allowing them to rotate independently. , usually numbering two, consist of a central , radiating spokes, and an outer felloe banded with a metal rim for and traction. These elements enable the cart's movement across surfaces by distributing rotational force from the puller. Supporting elements encompass shafts or poles extending forward from the body for attachment to a puller, facilitating propulsion and steering, as well as simple brakes such as wooden blocks applied via levers to rub against the wheel rims and generate stopping friction. Load capacity relies on positioning the cargo's center of gravity directly over the axle, which prevents tipping by ensuring even weight distribution and minimizing forward or rearward shifts during motion. In terms of basic , these components interact to provide stability and maneuverability: the and wheels bear and evenly spread the load for balance on uneven , while the shafts transmit pulling and allow directional control through the puller's movements. The low-slung design and central placement further enhance resistance to overturning, promoting reliable operation over rough paths.

Historical Development

Origins

The origins of the cart are closely tied to the invention of the around 3500 BCE in , where the Sumerians developed the first wheeled vehicles for practical use. The earliest evidence comes from pictographs and artifacts, including impressions in tombs, images on , and models of carts, which depict their role in transporting goods for agricultural purposes. These innovations emerged in the fertile river valleys of the and , enabling more efficient movement of harvests and resources in early urban societies like . Initial cart designs featured solid wooden made from planks clamped together with transverse struts, forming heavy discs attached to fixed axles. These rudimentary structures were pulled by oxen or other draft animals, facilitating short-distance of agricultural produce and building materials across the alluvial plains. The simplicity of this two-wheeled form marked a foundational advancement in overland , predating more complex variants. By 2500 BCE, the spread to neighboring regions, with adoption in during the Fifth Dynasty for similar utilitarian roles, and in the Indus Valley Civilization during the Harappan Phase, where terracotta models indicate use in and farming along river systems. This diffusion supported expanding economic networks in these cultures, enhancing the exchange of goods beyond local communities.

Evolution Across Eras

The evolution of carts following their initial invention saw significant advancements in design that enhanced mobility, durability, and utility across various regions. In ancient times, a pivotal innovation was the development of spoked wheels around 2000 BCE by the in the steppe regions of , which produced lighter and faster vehicles suitable for warfare, as evidenced by chariot burials containing spoked wheel remains. These spoked designs contrasted with earlier solid wheels and enabled rapid deployment in battles, spreading quickly across and influencing . Regional variations included the Roman two-wheeled s, which emphasized speed and maneuverability for racing and combat, featuring lightweight wooden frames reinforced with metal fittings. During the medieval period in , cart construction advanced with the incorporation of iron reinforcements, such as rims and tyres on wheels, to withstand rough roads and heavy loads more effectively than wooden predecessors. This metallurgical enhancement, emerging from broader ironworking progress, allowed carts to support expanded agricultural and urban transport needs. A notable application was the , a tipping cart documented in 12th-century records, initially for hauling but adapted for public punishments like parading offenders through streets to enforce . These developments varied regionally, with heavier four-wheeled wagons in prioritizing load capacity over the lighter two-wheeled designs of southern traditions. In the early modern era, spanning the 18th and 19th centuries, refinements in and focused on axle systems for smoother operation and greater efficiency. European innovations included the transition from wooden to iron-sheathed s, reducing friction and enabling longer hauls, as seen in the developed around 1730 in for colonial freight trade, which featured arched suspension and broad wheels for stability on unpaved trails. In , similar upgrades to bullock cart s incorporated grease boxes for lubrication, supporting expanded trade networks under colonial influences. These carts played a crucial role in colonial commerce, transporting goods like spices and textiles across vast distances where roads remained primary arteries. The onset of industrialization in the late marked a decline in cart dominance, as networks drastically lowered long-distance costs and speeds, rendering animal-drawn carts obsolete for bulk freight in both and . For instance, in , the expansion of railways significantly reduced usage for inter-regional trade during the late , shifting economic patterns toward rail-dependent . Carts persisted for local tasks, but their role in broader economies waned as mechanized alternatives proliferated.

Design and Construction

Wheels and Suspension

The evolution of cart wheels began with solid disk designs constructed from wooden planks or logs, dating back to approximately 3600–2800 BCE in regions such as and , where they provided basic rolling capability for early wheeled vehicles. These solid wheels were heavy but durable, often featuring a central for axle attachment, and transitioned incrementally by the addition of felloes around 2500 BCE to enhance rim strength without spokes. By the , around 2000 BCE, spoked wheels emerged in the and , using wooden spokes to connect the hub and rim, resulting in lighter structures that improved speed and payload efficiency for carts and chariots; these became widespread for utilitarian purposes by 1500 BCE. Materials evolved alongside designs, starting with wood for hubs, spokes, and felloes, followed by iron rims added circa 1000 BCE to increase wear resistance on rough terrain. In later eras, rubber elements appeared in the mid-19th century, initially as solid rubber strips fitted to wooden or iron-rimmed wheels on wagons to cushion rides, with pneumatic rubber tires patented in 1845 but adopted more broadly for carts in the early for superior shock absorption. Axle designs in carts typically featured a fixed axle configuration, where the axle remained stationary relative to the cart body while wheels rotated around it via bearings, a setup common from prehistoric times through the to minimize rotational drag compared to rotating-axle systems. In early European examples, such as those from and around 3500 BCE, wheels were sometimes fixed to a rotating through a square mortise, but the fixed-axle-with-rotating-wheels prevailed for most freight carts due to simpler and lower . was achieved via a pivoting front , as seen in medieval wagons with turning trains documented by 14th-century sources, allowing tighter turns without wheel swivels. methods advanced in the with grease cups or buckets containing heavy animal-fat-based grease applied to wooden or iron-sleeved axles, reducing on wagon skeins during emigrant trails and farm use; thimble skein designs enclosed the axle ends in iron tubes for better grease retention. Suspension systems in animal-drawn carts were rudimentary, often relying on simple chains or leather straps suspending the body from the in early designs to provide basic isolation from road shocks, a practice dating to Roman-era litters and persisting into the medieval period. By the , leaf springs—stacked steel laminations arched between the and frame—became standard for heavier carts, offering progressive flex to absorb bumps and distribute loads evenly across uneven terrain. These systems played a critical role in load distribution by transferring weight from the cart body to the axles while adapting to terrain variations, preventing excessive jolt to cargo or animals; for instance, elliptic leaf springs in 19th-century sprung carts improved stability for loads over rough paths. Performance factors in cart wheels emphasized friction reduction through and , with spoked wheels lowering overall by up to 50% compared to solid disks, thereby decreasing on . Proper further minimized , enabling smoother operation and extending component life, while iron rims and later rubber enhanced traction and reduced slippage on varied surfaces. Weight-to-strength ratios were optimized for load capacities typically ranging from 500 to 2000 kg in 19th-century freight wagons, where wooden-spoked wheels with iron reinforcement supported such payloads without failure, balancing durability against mobility needs.

Materials and Manufacturing

Traditional carts were primarily constructed using hardwoods such as and for their frames, valued for their strength and durability in supporting loads over rough terrain. These timbers were selected for their resistance to splitting and ability to withstand repeated stress, forming the structural backbone of carts like the Red River variants used in routes. Bindings in these early designs often incorporated straps derived from animal hides or twisted made from natural fibers, securing components without the need for metal fasteners and allowing for flexibility in assembly and repair. Animal hides, such as buffalo robes, served as protective covers over , shielding goods from weather while adding minimal weight to the overall structure. By the , advancements introduced reinforcements to cart construction, enhancing frame stability through straps and brackets that prevented wood from warping under heavy use. This led to early wood-metal hybrids, where iron elements were integrated into wooden frames to create more robust vehicles capable of longer hauls. Manufacturing processes relied on handcrafting techniques, with adzes employed to shape and smooth wooden components for precise fitting. Forges were essential for producing iron reinforcements, where blacksmiths heated and hammered into custom fittings. Assembly typically involved mortise-and-tenon joints, a durable method where a protruding tenon on one piece interlocked into a mortise slot on another, often secured with wooden pegs for added strength. Economic factors heavily influenced material choices, with local sourcing dictating designs; in , abundant provided lightweight yet resilient frames for carts, as seen in traditional Chinese transport tools, while European builders favored dense timbers like due to forested landscapes. This regional adaptation ensured carts were cost-effective and suited to available resources, optimizing both construction and functionality.

Types by Propulsion

Human-Powered Carts

Human-powered carts are transportation devices propelled solely by human effort through pushing or pulling, enabling the movement of goods in environments where animal or mechanical power is impractical or unavailable. These carts emphasize simplicity, portability, and ease of use, making them ideal for short-distance hauling in constrained settings. Common variants include hand trucks, which feature two vertical wheels and a vertical frame that allows loads to be tilted and balanced against the operator's body for efficient transport; wheelbarrows, a one-wheeled design with a shallow bin and one or two handles for lifting the load off the ground; and two-handled pushcarts, often with two or four wheels and a flat platform, suited for urban applications like loading and unloading in markets. Key mechanical features prioritize user safety and efficiency, such as ergonomic handles positioned at 35 to 44 inches high to align with the operator's natural posture and minimize back strain during operation. A low center of gravity, achieved by placing heavier components near the base and distributing loads evenly, enhances balance and reduces tipping risks, especially on uneven surfaces. These carts typically support load limits of 50 to 200 kg, with reductions recommended in confined areas to prevent excessive force exertion. Basic axle systems, often fixed or simple pivoting designs, provide reliable wheel support without complex mechanisms. Historically, human-powered pushcarts played a vital role in 19th-century U.S. cities, particularly among immigrant communities for vending and daily commerce. In New York City's Lower East Side, vendors began organizing pushcart markets around 1866 on Hester Street, defying regulations to create open-air bazaars that by 1900 numbered over 2,500 across the city, offering affordable goods like produce and clothing directly to residents. Similarly, in Chicago's neighborhood during the early 1900s, these carts formed dense, vibrant markets essential to immigrant economic survival, allowing low-capital entrepreneurs to navigate crowded streets and serve ethnic enclaves. The primary advantages of human-powered carts lie in their independence from animals or , eliminating maintenance costs and enabling operation in animal-prohibited zones, while their compact facilitates through tight spaces like urban markets, where loads can be adjusted for safer handling in narrow aisles. These attributes reduced physical drudgery compared to manual carrying, allowing heavier payloads over distances up to 10 km with less fatigue.

Animal-Powered Carts

Animal-powered carts represent a fundamental advancement in transportation, relying on domesticated animals to pull wheeled vehicles for hauling goods and supporting agricultural activities. Common draft animals include , oxen, and donkeys, each adapted to specific harness systems that distribute load efficiently across their . typically use a collar harness, which encircles the shoulders without compressing the windpipe, allowing greater pulling power compared to earlier throat-grip designs. This collar, invented in by the second century BCE and spreading to by the ninth century CE, enabled to pull loads up to three times heavier than previous harnesses permitted. Oxen, being bovines, are harnessed with wooden yokes placed across their necks and shoulders, linking them in pairs to share the burden evenly. Donkeys, as equines, employ similar collar or breast-strap harnesses but scaled for their smaller size, often with traces attaching directly to cart shafts for lighter loads. Cart designs for animal propulsion feature long shafts or poles extending from the front axle, attached to the 's harness or to transfer pulling force directly to the . These shafts are reinforced with iron fittings or wooden braces to withstand the sustained tension from strength, typically accommodating loads of up to 500-900 kg for an pair or heavy on level . for connect the shafts via a central bow, distributing weight symmetrically, while designs incorporate breeching straps to control backward motion on slopes. Wheel durability is essential in these setups to handle the increased stress from heavy, animal-driven loads. Such configurations maximized efficiency, with traces— or straps—linking the harness to the cart's swingletree, allowing animals to pull at an optimal angle without straining. Historically, animal-powered carts played crucial roles in and trade. In medieval , farm carts drawn by oxen or transported harvested crops like and hay from fields to villages, supporting the manorial and enabling surplus production beyond subsistence levels. Oxen were favored for their steady power and lower costs, pulling tumbrils—simple two-wheeled carts—for plowing-related tasks such as hauling or tools. Earlier, in ancient around 3500 BCE, oxcarts with solid wooden wheels facilitated agricultural transport, moving plowing equipment, seeds, and early harvests across the fertile plains, which bolstered the rise of urban civilizations. These carts, often depicted in Sumerian reliefs from 2500 BCE, were pulled by oxen or onagers, integrating with ard plows to enhance farming productivity. Regional variations adapted animal-powered carts to local environments and available species. In mountainous areas, mule trains—strings of 20 to 40 s led by a bell —navigated steep trails, carrying supplies like tools and food at loads of 300 pounds per animal, as seen in 19th-century American West routes and World War II Italian campaigns. In Arctic cultures, such as those in early 20th-century , dogs pulled small wheeled carts or rail carts for summer of like fish and equipment in coastal settlements like Nome, supplementing winter sleds for short-haul tasks in thawing conditions. These adaptations highlighted the versatility of animal power in challenging terrains.

Modern Variants and Applications

Utility and Shopping Carts

Utility and shopping carts emerged in the as essential tools for retail and , transforming consumer behavior by enabling efficient transport of goods. The modern shopping cart was invented in 1937 by , an grocery store owner, who designed a folding metal basket carriage inspired by folding chairs to allow customers to carry more items without multiple trips to shelves. This innovation addressed the limitations of handheld baskets in growing supermarkets during the , boosting sales by encouraging bulk purchases. Early designs featured a wheeled frame with detachable wire baskets for easy handling, but storage challenges persisted until the mid-1940s when Orla Watson introduced nesting mechanisms with hinged rear gates, allowing carts to stack compactly and reducing required space in stores. Utility carts, distinct from consumer shopping models, support commercial operations in environments like and , often prioritizing durability and load capacity over aesthetics. Airport baggage carts, such as those used for handling on aprons, are typically constructed from heavy-gauge to withstand harsh outdoor conditions and heavy loads up to several tons. dollies and platform carts, used for moving pallets and , commonly employ wire frames for strength or high-density for corrosion resistance and lighter weight, facilitating maneuverability in tight spaces. These materials balance cost-effectiveness with , as variants reduce in humid or chemical-exposed settings. Post-World War II innovations enhanced usability, with swivel casters becoming standard on carts by the to improve navigation in crowded aisles, allowing 360-degree turns without lifting. Grocery versions often include integrated child seats, introduced in the to accommodate families, featuring padded, fold-down platforms for and convenience during extended . Globally, adoption varies; in , many supermarkets implement coin-deposit locking systems to deter , requiring a small coin or token to release the cart, which is refunded upon return—a practice widespread since the to minimize losses. Sustainability efforts intensified after 2000, with manufacturers shifting to recyclable plastics like for cart frames, reducing environmental impact and enabling full recyclability at end-of-life, as seen in models from companies like Peggs that are 100% recyclable.

Recreational and Specialized Carts

Recreational carts encompass vehicles designed primarily for leisure and sporting activities, often featuring compact, agile frames that emphasize speed and maneuverability. Go-karts, a quintessential example, were invented in 1956 by Art Ingels, a fabricator at the Kurtis Kraft racing company in Southern California, who constructed the first model using surplus aircraft tubing and a lawnmower engine for informal backyard racing. These low-slung, open-frame vehicles prioritize low center of gravity for handling, with typical recreational and entry-level racing models achieving top speeds of up to 100 km/h, depending on engine size and track conditions. Golf carts represent another key recreational variant, initially developed to assist mobility on courses but evolving into broader leisure transport. Electric models emerged in the early 1950s, with Merle Williams founding Marketeer in 1951 to produce battery-powered carts specifically for golfing, offering quieter operation and reduced maintenance compared to early gas prototypes. By the late 20th century, these carts extended into neighborhood electric vehicles (NEVs), low-speed electric transports limited to 25-45 km/h for short-distance community use, such as in gated communities or campuses, while retaining the core cart design of four wheels and open seating. Specialized carts adapt the basic wheeled platform for niche leisure or functional purposes beyond general utility. Food carts, rooted in 19th-century vending, originated with chuckwagons in , which served as mobile kitchens for American cowboys, providing hot meals during cattle drives and establishing the model of portable food service. This evolved into modern s by the 1970s, with the first documented taco truck appearing in in 1974, transforming carts into self-contained, motorized units for urban vending that blend recreation with entrepreneurship through events like food truck festivals. Medical transport carts, meanwhile, serve specialized healthcare roles, such as procedure and medication carts that facilitate the movement of equipment and supplies within facilities; for instance, anesthesia carts carry sedatives, monitors, and tools to operating rooms, enhancing efficiency in patient care without full vehicle scale. Innovations in recreational and specialized carts have focused on electrification, safety, and sustainability to enhance performance and accessibility. Battery-powered systems, increasingly common since the , power electric go-karts with lithium-ion packs delivering instant and zero emissions, as seen in models like the EcoVolt series that integrate management for extended track sessions. Safety features, such as roll cages—tubular metal frames surrounding the driver—have become standard in go-karts to protect against rollovers. Environmental adaptations include solar-assisted charging in the , exemplified by Sunecarts' models that incorporate rooftop photovoltaic panels to help extend battery range during daylight use, reducing reliance on grid power for eco-friendly recreation.

References

  1. https://www.merriam-webster.com/dictionary/cart
  2. https://www.intrans.iastate.edu/news/two-wheels-a-history/
  3. https://www.intrans.iastate.edu/news/four-wheels-a-history/
  4. https://www.thoughtco.com/wheeled-vehicles-history-practical-human-use-171870
  5. https://indigenouspeoplesatlasofcanada.ca/article/red-river-carts/
  6. https://news.columbia.edu/news/professors-freewheeling-investigation-wheels
  7. https://www.britannica.com/technology/cart
  8. https://www.britannica.com/technology/wagon-vehicle
  9. https://www.oed.com/dictionary/cart_n
  10. https://www.etymonline.com/word/cart
  11. https://www.museum.ie/en-IE/Collections-Research/Folklife-Collections/Folklife-Collections-List-(1)/Land-Transport/Making-a-cart-(1)/Making-a-Cart
  12. https://research.colonialwilliamsburg.org/Foundation/journal/Winter04-05/wheel.cfm
  13. https://www.mullerslanefarm.com/wagonbrake.html
  14. https://chimacumtack.com/blog/2019/05/14/tuesday-tip-two-wheeled-cart-balance/
  15. https://www.britannica.com/technology/wheel
  16. https://www.ancient-origins.net/ancient-technology/revolutionary-invention-wheel-001713
  17. https://www.thoughtco.com/the-invention-of-the-wheel-1992669
  18. https://www.academia.edu/39805158/Some_Notes_on_Pictograms_Interpreted_as_Sledges_and_Wheeled_Vehicles_in_the_Archaic_Texts_from_Uruk
  19. https://iraqhistory.org/en/the-wheel/
  20. https://africame.factsanddetails.com/article/entry-1024.html
  21. https://journals.librarypublishing.arizona.edu/jaei/article/id/1221/
  22. https://www.harappa.com/content/wheeled-vehicles-indus-valley-civilization
  23. https://www.academia.edu/765506/THE_ORIGIN_AND_SPREAD_OF_THE_WAR_CHARIOT
  24. https://academic.oup.com/book/1842/chapter/141558698
  25. https://www.tehistory.org/hqda/html/v22/v22n2p043.html
  26. https://the-eye.eu/public/Books/pssurvival.com/PS/Animal/Power/The_Design_And_Manufacture_Of_Animal_Drawn_Carts_1986.pdf
  27. https://eprints.lse.ac.uk/38368/1/ARCWP41-Donaldson.pdf
  28. https://www.academia.edu/37988651/Prehistoric_Innovations_Wheels_and_Wheeled_Vehicles
  29. https://www.tedcloak.com/uploads/4/5/3/7/45374411/the_wheel.pdf
  30. https://asko.uz/tpost/dkvgj7evs1-the-history-of-tires-from-wooden-wheels
  31. https://www.hemmings.com/stories/this-day-in-history-1845-robert-william-thomson-patents-the-pneumatic-tire/
  32. https://thetireterminal.com/tires/a-brief-history-of-the-automobile-tire/
  33. https://www.aramcoworld.com/articles/2017/why-reinvent-the-wheel
  34. https://www.jstor.org/stable/3101296
  35. https://www.hansenwheel.com/faqs-wagon-history/
  36. https://www.wyohistory.org/encyclopedia/oil-seeps-and-axle-grease-petroleum-sales-emigrant-trails
  37. http://www.citroenet.org.uk/miscellaneous/suspension/suspension2.html
  38. https://www.owensprings.co.uk/the-evolution-of-leaf-springs-tracing-the-history-of-a-pivotal-automotive-innovation/
  39. http://www.mhs.mb.ca/docs/transactions/3/redrivercart.shtml
  40. https://www.medievalchronicles.com/medieval-life/medieval-jobs-list/forging-the-wheels-of-time-exploring-the-vital-role-of-medieval-wheelwrights/
  41. https://mythicscribes.com/history/wagons-carts-trucks/
  42. https://www.robin-wood.co.uk/wood-craft-blog/2008/12/07/adzes/
  43. https://www.engr.psu.edu/mtah/essays/forge_furnace.htm
  44. https://www.laurelcrown.com/mortise-and-tenon-history
  45. https://www.npr.org/2006/07/26/5584492/bamboos-rise-puts-chinas-tradition-at-risk
  46. https://www.valleybox.com/blog/the-history-of-wood-used-in-industry-wooden-shipping-crate
  47. https://www.academia.edu/64041048/Pushing_and_pulling_carts_and_two_wheeled_hand_trucks
  48. https://www.touchpointmed.com/system/files/private-resource/white-papers/The-Importance-of-Human-Factors-and-Ergonomics-Workstation-on-Wheels-White-Paper.pdf
  49. https://www.thefabricator.com/thefabricator/article/materialshandling/don-t-put-the-cart-before-workplace-ergonomics
  50. https://www.ccohs.ca/oshanswers/ergonomics/push2.html
  51. https://www.historytoday.com/archive/feature/streets-new-york-city
  52. https://www.6sqft.com/from-oysters-to-falafel-the-complete-history-of-street-vending-in-nyc/
  53. https://www.tabletmag.com/sections/community/articles/rise-fall-pushcarts
  54. https://unesdoc.unesco.org/ark:/48223/pf0000081681
  55. https://www.animaltraction.net/Harnessingandimplements/HarnessingandImplementsch3.pdf
  56. https://read.dukeupress.edu/hahr/article/50/1/30/152317/Carting-in-the-Hispanic-World-An-Example-of
  57. https://www.medievalists.net/2023/02/horse-ox-medieval-times/
  58. https://ir.library.louisville.edu/cgi/viewcontent.cgi?article=1882&context=faculty
  59. https://timemaps.com/encyclopedia/ancient-mesopotamia-history/
  60. https://pmc.ncbi.nlm.nih.gov/articles/PMC11322082/
  61. https://transportation.army.mil/history/pack_mules.html
  62. http://messybeast.com/history/dogcarts.htm
  63. https://americanhistory.si.edu/collections/object/nmah_1216280
  64. https://www.nytimes.com/1975/10/04/archives/shopping-carts-carrying-the-load-across-us.html
  65. https://99percentinvisible.org/article/shopping-around-folding-basket-carriers-became-modern-nesting-carts/
  66. https://wilcoxgse.com/products/baggage-carts/
  67. https://www.globalindustrial.com/c/carts-trucks/utility_carts
  68. https://edition.cnn.com/2023/01/21/business/shopping-carts-lost-stolen-ctpr
  69. https://thepeggscompany.com/resources/blog/all-plastic-shopping-carts-a-smart-choice-for-retailers-and-shoppers-alike/
  70. https://fuelcurve.com/early-history-of-karting/
  71. https://riiroo.com/blogs/ride-on-toy-guides/what-is-the-fastest-go-kart
  72. https://www.mikeysmotors.com/blog/a-brief-history-of-the-golf-cart--41775
  73. https://www.golfcartsforsale.com/blog/what-is-neighborhood-electric-vehicle/
  74. https://prestigefoodtrucks.com/2020/03/history-of-food-trucks-and-how-theyve-shaped-america/
  75. https://ij.org/report/food-truck-truth/a-brief-history-of-food-trucks/
  76. https://blog.cmecorp.com/types-of-medical-carts
  77. https://bizkarts.com/electric-karts/
  78. https://www.gokartmasters.com/are-go-karts-safe-for-kids/
  79. https://sunecarts.com/
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