A harpoon is a long spear-like instrument used in fishing, whaling and other marine hunting to catch large fish or marine mammals such as whales. It accomplishes this task by impaling the target animal and securing it with barb or toggling claws, allowing the fishermen to use a rope or chain attached to the butt of the projectile to catch the animal. A harpoon can be used as a weapon. In the 1990s, harpoon points, known as the Semliki harpoons or the Katanda harpoons, were found in the Katanda region in Zaire; as the earliest known harpoons, these weapons were made and used 90,000 years ago, most to spear catfishes. In Japan, spearfishing with poles was widespread in palaeolithic times during the Solutrean and Magdalenian periods. Cosquer Cave in Southern France contains cave art over 16,000 years old, including drawings of seals which appear to have been harpooned. There are references to harpoons in ancient literature, though, in most cases, the descriptions do not go into detail. An early example can be found in the Bible in Job 41:7: "Can you fill its hide with harpoons or its head with fishing spears?"
The Greek historian Polybius, in his Histories, describes hunting for swordfish by using a harpoon with a barbed and detachable head. Copper harpoons were known to the seafaring Harappans well into antiquity. Early hunters in India include the Mincopie people, aboriginal inhabitants of India's Andaman and Nicobar islands, who have used harpoons with long cords for fishing since early times; the two flue harpoon was the primary weapon used in whaling around the world, but it tended to penetrate no deeper than the soft outer layer of blubber. Thus it was possible for the whale to escape by struggling or swimming away forcefully enough to pull the shallowly embedded barbs out backwards; this flaw was corrected in the early nineteenth century with the creation of the one flue harpoon. In the Arctic, the indigenous people used the more advanced toggling harpoon design. In the mid-19th century, the toggling harpoon was adapted by Lewis Temple; the Temple toggle was used, came to dominate whaling. In his famous novel Moby-Dick, Herman Melville explained the reason for the harpoon's effectiveness: In most land animals there are certain valves or flood gates in many of their veins, whereby when wounded, the blood is in some degree at least shut off in certain directions.
Not so with the whale. Yet so vast is the quantity of blood in him, so distant and numerous its interior fountains, that he will keep thus bleeding and bleeding for a considerable period, he describes another device, at times a necessary addition to harpoons: All whale-boats carry certain curious contrivances invented by the Nantucket Indians, called druggs. Two thick squares of wood of equal size are stoutly clenched together, so that they cross each other's grain at right angles, it is chiefly among gallied whales. For more whales are close round you than you can chase at one time, but sperm whales are not every day encountered. And if you cannot kill them all at once, you must wing them, so that they can be afterwards killed at your leisure. Hence it is; the first use of explosives in the hunting of whales was made by the British South Sea Company in 1737, after some years of declining catches. A large fleet was armed with cannon-fired harpoons. Although the weaponry was successful in killing the whales, most of the catch sank before being retrieved.
However, the system was still used, underwent successive improvements at the hands of various inventors over the next century, including Abraham Stagholt in the 1770s and George Manby in the early 19th century. William Congreve, who invented some of the first rockets for British Army use, designed a rocket-propelled whaling harpoon in the 1820s; the shell was designed to impale the whale with the harpoon. The weapon was in turn attached by a line to the boat, the hope was that the explosion would generate enough gas within the whale to keep it afloat for retrieval. Expeditions were sent out to try this new technology; these early devices, called bomb lances, became used for the hunting of humpbacks and right whales. A notable user of these early explosive harpoons was the American Thomas Welcome Roys in 1865, who set up a shore station in Seydisfjördur, Iceland. A slump in oil prices after the American Civil War forced their endeavor into bankruptcy in 1867. An early version of the explosive harpoon was designed by Jacob Nicolai Walsøe, a Norwegian painter and inventor.
His 1851 application was rejected by the interior ministry on the grounds that he had received public funding for his experiments. In 1867, a Danish fi
A spear is a pole weapon consisting of a shaft of wood, with a pointed head. The head may be the sharpened end of the shaft itself, as is the case with fire hardened spears, or it may be made of a more durable material fastened to the shaft, such as flint, iron, steel or bronze; the most common design for hunting or combat spears since ancient times has incorporated a metal spearhead shaped like a triangle, lozenge, or leaf. The heads of fishing spears feature barbs or serrated edges; the word spear comes from the Old English spere, from the Proto-Germanic speri, from a Proto-Indo-European root *sper- "spear, pole". Spears can be divided into two broad categories: those designed for thrusting in melee combat and those designed for throwing; the spear has been used throughout human history both as a weapon. Along with the axe and club, it is one of the earliest and most important tools developed by early humans; as a weapon, it may be wielded with two. It was used in every conflict up until the modern era, where then it continues on in the form of the bayonet, is the most used weapon in history.
Spear manufacture and use is not confined to humans. It is practiced by the western chimpanzee. Chimpanzees near Kédougou, Senegal have been observed to create spears by breaking straight limbs off trees, stripping them of their bark and side branches, sharpening one end with their teeth, they used the weapons to hunt galagos sleeping in hollows. Archaeological evidence found in present-day Germany documents that wooden spears have been used for hunting since at least 400,000 years ago, a 2012 study suggests that Homo heidelbergensis may have developed the technology about 500,000 years ago. Wood does not preserve well and Craig Stanford, a primatologist and professor of anthropology at the University of Southern California, has suggested that the discovery of spear use by chimpanzees means that early humans used wooden spears as well five million years ago. Neanderthals were constructing stone spear heads from as early as 300,000 BP and by 250,000 years ago, wooden spears were made with fire-hardened points.
From circa 200,000 BC onwards, Middle Paleolithic humans began to make complex stone blades with flaked edges which were used as spear heads. These stone heads could be fixed to the spear shaft by gum or resin or by bindings made of animal sinew, leather strips or vegetable matter. During this period, a clear difference remained between spears designed to be thrown and those designed to be used in hand-to-hand combat. By the Magdalenian period, spear-throwers similar to the atlatl were in use; the spear is the main weapon of the warriors of Homer's Iliad. The use of both a single thrusting spear and two throwing spears are mentioned, it has been suggested. In the 7th century BC, the Greeks evolved the phalanx; the key to this formation was the hoplite, equipped with a large, bronze-faced shield and a 7–9 ft spear with an iron head and bronze butt-spike. The hoplite phalanx dominated warfare among the Greek City States from the 7th into the 4th century BC; the 4th century saw major changes. One was the greater use of light infantry armed with spear and javelins.
The other was the development of the sarissa, a two-handed pike 18 ft in length, by the Macedonians under Phillip of Macedon and Alexander the Great. The pike phalanx, supported by peltasts and cavalry, became the dominant mode of warfare among the Greeks from the late 4th century onward until Greek military systems were supplanted by the Roman legions. In the pre-Marian Roman armies, the first two lines of battle, the hastati and principes fought with a sword called a gladius and pila, heavy javelins that were designed to be thrown at an enemy to pierce and foul a target's shield; the principes were armed with a short spear called a hasta, but these fell out of use being replaced by the gladius. The third line, the triarii, continued to use the hasta. From the late 2nd century BC, all legionaries were equipped with the pilum; the pilum continued to be the standard legionary spear until the end of the 2nd century AD. Auxilia, were equipped with a simple hasta and throwing spears. During the 3rd century AD, although the pilum continued to be used, legionaries were equipped with other forms of throwing and thrusting spear, similar to auxilia of the previous century.
By the 4th century, the pilum had disappeared from common use. In the late period of the Roman Empire, the spear became more used because of its anti-cavalry capacities as the barbarian invasions were conducted by people with a developed culture of cavalry in warfare. Muslim warriors used a spear, called an az-zaġāyah. Berbers pronounced it zaġāya, but the English term, derived from the Old French via Berber, is "assegai", it is a pole weapon used for throwing or hurling a light spear or javelin made of hard wood and pointed with a forged iron tip. The az-zaġāyah played an important role during the Islamic conquest as well as during periods, well into the 20th century. A longer pole az-zaġāyah was being used as a hunting weapon from horseback; the az-zaġāyah was used. It existed in various forms in areas stretching from Southern Africa to the Indian subcontinent, although these place
History of technology
The history of technology is the history of the invention of tools and techniques and is one of the categories of the history of humanity. Technology can refer to methods ranging from as simple as stone tools to the complex genetic engineering and information technology that has emerged since the 1980s; the term technology comes from the Greek word techne, meaning art and craft, the word logos, meaning word and speech. It was first used to describe applied arts, but it is now used to described advancements and changes which affect the environment around us. New knowledge has enabled people to create new things, conversely, many scientific endeavors are made possible by technologies which assist humans in traveling to places they could not reach, by scientific instruments by which we study nature in more detail than our natural senses allow. Since much of technology is applied science, technical history is connected to the history of science. Since technology uses resources, technical history is connected to economic history.
From those resources, technology produces other resources, including technological artifacts used in everyday life. Technological change affects and is affected by, a society's cultural traditions, it is a force for economic growth and a means to develop and project economic, military power and wealth. Many sociologists and anthropologists have created social theories dealing with social and cultural evolution. Some, like Lewis H. Morgan, Leslie White, Gerhard Lenski have declared technological progress to be the primary factor driving the development of human civilization. Morgan's concept of three major stages of social evolution can be divided by technological milestones, such as fire. White argued. For White, "the primary function of culture" is to "harness and control energy." White differentiates between five stages of human development: In the first, people use the energy of their own muscles. In the second, they use the energy of domesticated animals. In the third, they use the energy of plants.
In the fourth, they learn to use the energy of natural resources: coal, gas. In the fifth, they harness nuclear energy. White introduced a formula P=E*T, where E is a measure of energy consumed, T is the measure of the efficiency of technical factors using the energy. In his own words, "culture evolves as the amount of energy harnessed per capita per year is increased, or as the efficiency of the instrumental means of putting the energy to work is increased". Nikolai Kardashev extrapolated his theory, creating the Kardashev scale, which categorizes the energy use of advanced civilizations. Lenski's approach focuses on information; the more information and knowledge a given society has, the more advanced. He identifies four stages of human development, based on advances in the history of communication. In the first stage, information is passed by genes. In the second, when humans gain sentience, they can pass information through experience. In the third, the humans start develop logic. In the fourth, they can develop language and writing.
Advancements in communications technology translate into advancements in the economic system and political system, distribution of wealth, social inequality and other spheres of social life. He differentiates societies based on their level of technology and economy: hunter-gatherer, simple agricultural, advanced agricultural, special. In economics, productivity is a measure of technological progress. Productivity increases. Another indicator of technological progress is the development of new products and services, necessary to offset unemployment that would otherwise result as labor inputs are reduced. In developed countries productivity growth has been slowing since the late 1970s. For example, employment in manufacturing in the United States declined from over 30% in the 1940s to just over 10% 70 years later. Similar changes occurred in other developed countries; this stage is referred to as post-industrial. In the late 1970s sociologists and anthropologists like Alvin Toffler, Daniel Bell and John Naisbitt have approached the theories of post-industrial societies, arguing that the current era of industrial society is coming to an end, services and information are becoming more important than industry and goods.
Some extreme visions of the post-industrial society in fiction, are strikingly similar to the visions of near and post-Singularity societies. The following is a summary of the history of technology by time period and geography: During most of the Paleolithic – the bulk of the Stone Age – all humans had a lifestyle which involved limited tools and few permanent settlements; the first major technologies were tied to survival and food preparation. Stone tools and weapons and clothing were technological developments of major importance during this period. Human ancestors have been using stone and other tools since long before the emergence of Homo sapiens 200,000 years ago; the earliest methods of stone tool making, known as the Oldowan "industry", date back to at least 2.3 million years ago, with the earliest direct evidence of tool usage found in Ethiopia within the Great Rift Valley, dating back to 2.5 million years ago. This era of stone tool use is called the Paleolithic
In agriculture, a terrace is a piece of sloped plane, cut into a series of successively receding flat surfaces or platforms, which resemble steps, for the purposes of more effective farming. This type of landscaping is therefore called terracing. Graduated terrace steps are used to farm on hilly or mountainous terrain. Terraced fields decrease both erosion and surface runoff, may be used to support growing crops that require irrigation, such as rice; the Rice Terraces of the Philippine Cordilleras have been designated as a UNESCO World Heritage Site because of the significance of this technique. Terraced paddy fields are used in rice and barley farming in east and southeast Asia, as well as the Mediterranean and South America. Drier-climate terrace farming is common throughout the Mediterranean Basin, where they are used for vineyards, olive trees, cork oak, etc. In the South American Andes, farmers have used terraces, known as andenes, for over a thousand years to farm potatoes and other native crops.
Terraced farming was developed by the Wari culture and other peoples of the south-central Andes before 1000 AD, centuries before they were used by the Inca, who adopted them. The terraces were built to make the most efficient use of shallow soil and to enable irrigation of crops by allowing runoff to occur through the outlet; the Inca built on these, developing a system of canals and puquios to direct water through dry land and increase fertility levels and growth. These terraced farms are found, they provided the food necessary to support the populations of great Inca cities and religious centres such as Machu Picchu. Terracing is used for sloping terrain. At the seaside Villa of the Papyri in Herculaneum, the villa gardens of Julius Caesar's father-in-law were designed in terraces to give pleasant and varied views of the Bay of Naples. Terraced fields are common in islands with steep slopes; the Canary Islands present a complex system of terraces covering the landscape from the coastal irrigated plantations to the dry fields in the highlands.
These terraces, which are named cadenas, are built with stone walls of skillful design, which include attached stairs and channels. In Old English, a terrace was called a "lynch". An example of an ancient Lynch Mill is in Lyme Regis; the water is directed from a river by a duct along a terrace. This set-up was used in steep hilly areas in the UK. In Japan, some of the 100 Selected Terraced Rice Fields, from Iwate in the north to Kagoshima in the south, are disappearing, but volunteers are helping the farmers both to maintain their traditional methods and for sightseeing purposes. Anden Banaue Rice Terraces Rice Terraces of the Philippine Cordilleras Satoyama Terrace garden Terrace Fields around the World
The three-age system is the categorization of history into time periods divisible by three. In history and physical anthropology, the three-age system is a methodological concept adopted during the 19th century by which artifacts and events of late prehistory and early history could be ordered into a recognizable chronology, it was developed by C. J. Thomsen, director of the Royal Museum of Nordic Antiquities, Copenhagen, as a means to classify the museum’s collections according to whether the artifacts were made of stone, bronze, or iron; the system first appealed to British researchers working in the science of ethnology who adopted it to establish race sequences for Britain's past based on cranial types. Although the craniological ethnology that formed its first scholarly context holds no scientific value, the relative chronology of the Stone Age, the Bronze Age and the Iron Age is still in use in a general public context, the three ages remain the underpinning of prehistoric chronology for Europe, the Mediterranean world and the Near East.
The structure reflects the cultural and historical background of Mediterranean Europe and the Middle East and soon underwent further subdivisions, including the 1865 partitioning of the Stone Age into Paleolithic and Neolithic periods by John Lubbock. It is, however, of little or no use for the establishment of chronological frameworks in sub-Saharan Africa, much of Asia, the Americas and some other areas and has little importance in contemporary archaeological or anthropological discussion for these regions; the concept of dividing pre-historical ages into systems based on metals extends far back in European history originated by Lucretius in the first century BC. But the present archaeological system of the three main ages—stone and iron—originates with the Danish archaeologist Christian Jürgensen Thomsen, who placed the system on a more scientific basis by typological and chronological studies, at first, of tools and other artifacts present in the Museum of Northern Antiquities in Copenhagen.
He used artifacts and the excavation reports published or sent to him by Danish archaeologists who were doing controlled excavations. His position as curator of the museum gave him enough visibility to become influential on Danish archaeology. A well-known and well-liked figure, he explained his system in person to visitors at the museum, many of them professional archaeologists. In his poem and Days, the ancient Greek poet Hesiod between 750 and 650 BC, defined five successive Ages of Man: 1. Golden, 2. Silver, 3. Bronze, 4. Heroic and 5. Iron. Only the Bronze Age and the Iron Age are based on the use of metal:... Zeus the father created the third generation of mortals, the age of bronze... They were terrible and strong, the ghastly action of Ares was theirs, violence.... The weapons of these men were bronze, of bronze their houses, they worked as bronzesmiths. There was not yet any black iron. Hesiod knew from the traditional poetry, such as the Iliad, the heirloom bronze artifacts that abounded in Greek society, that before the use of iron to make tools and weapons, bronze had been the preferred material and iron was not smelted at all.
He did not continue the manufacturing metaphor, but mixed his metaphors, switching over to the market value of each metal. Iron was cheaper than bronze, so there must have been a silver age, he portrays a sequence of metallic ages. Each age has less of a moral value than the preceding. Of his own age he says: "And I wish that I were not any part of the fifth generation of men, but had died before it came, or had been born afterward." The moral metaphor of the ages of metals continued. Lucretius, replaced moral degradation with the concept of progress, which he conceived to be like the growth of an individual human being; the concept is evolutionary:. Everything must pass through successive phases. Nothing remains. Everything is on the move. Everything is transformed by nature and forced into new paths... The Earth passes through successive phases, so that it can no longer bear what it could, it can now what it could not before; the Romans believed that the species of animals, including humans, were spontaneously generated from the materials of the Earth, because of which the Latin word mater, "mother", descends to English-speakers as matter and material.
In Lucretius the Earth is Venus, to whom the poem is dedicated in the first few lines. She brought forth humankind by spontaneous generation. Having been given birth as a species, humans must grow to maturity by analogy with the individual; the different phases of their collective life are marked by the accumulation of customs to form material civilization: The earliest weapons were hands and teeth. Next came stones and branches wrenched from trees, fire and flame as soon as these were discovered. Men learnt to use tough iron and copper. With copper they tilled the soil. With copper they whipped up the clashing waves of war... By slow degrees the iron sword came to the fore. Lucretius envisioned a pre-technological human, "far tougher than the men of today... They lived out their lives in the fashion of wild beasts roaming at large." The next stage was the use of huts, clothing and the family. City-states and citadels followed them. Lucretius supposes that the initial
Bow and arrow
The bow and arrow is a ranged weapon system consisting of an elastic launching device and long-shafted projectiles. Archery is the practice, or skill of using bows to shoot arrows. A person who shoots arrows with a bow is called an archer. Someone who makes bows is known as a bowyer, one who makes arrows is a fletcher, one who manufactures metal arrowheads is an arrowsmith; the use of bows and arrows by humans for hunting predates recorded history and was common to many prehistoric cultures. They were important weapons of war from ancient history until the early modern period, where they were rendered obsolete by the development of the more powerful and accurate firearms, were dropped from warfare. Today and arrows are used for hunting and sports. A bow consists of a semi-rigid but elastic arc with a high-tensile bowstring joining the ends of the two limbs of the bow. An arrow is a projectile with a pointed tip and a long shaft with stabilizer fins towards the back, with a narrow notch at the end to contact the bowstring.
To load an arrow for shooting, the archer places an arrow across the middle of the bow with the bowstring in the arrow's nock. To shoot, the archer pulls back the arrow and the bowstring, which in turn flexes the bow limbs, storing elastic energy. While maintaining the draw, the archer sights along the arrow to aim it; the archer releases the arrow, allowing the limbs' stored potential energy to convert into kinetic energy, transmitted via the bowstring to the arrow, propelling it to fly forward with high velocity. A container or bag for additional arrows for quick reloading is called a quiver; when not in use, bows are kept unstrung, meaning one or both ends of the bowstring are detached from the bow. This removes all residual tension on the bow, can help prevent it from losing strength or elasticity over time. For many bow designs, this lets it straighten out more reducing the space needed to store the bow. Returning the bowstring to its ready-to-use position is called stringing the bow; the bow and arrow appears around the transition from the Upper Paleolithic to the Mesolithic.
After the end of the last glacial period, use of the bow seems to have spread to every inhabited region, except for Australasia and most of Oceania. The earliest definite remains of bow and arrow are from Europe. Possible fragments from Germany were found at Mannheim-Vogelstang dated 17,500-18,000 years ago, at Stellmoor dated 11,000 years ago. Azilian points found in Grotte du Bichon, alongside the remains of both a bear and a hunter, with flint fragments found in the bear's third vertebra, suggest the use of arrows at 13,500 years ago. At the site of Nataruk in Turkana County, obsidian bladelets found embedded in a skull and within the thoracic cavity of another skeleton, suggest the use of stone-tipped arrows as weapons about 10,000 years ago. Microliths discovered on the south coast of Africa suggest that projectile weapons of some sort may be at least 71,000 years old; the oldest extant bows in one piece are the elm Holmegaard bows from Denmark which were dated to 9,000 BCE. Several bows from Holmegaard, date 8,000 years ago.
High-performance wooden bows are made following the Holmegaard design. The Stellmoor bow fragments from northern Germany were dated to about 8,000 BCE, but they were destroyed in Hamburg during the Second World War, before carbon 14 dating was available; the bow was an important weapon for both hunting and warfare from prehistoric times until the widespread use of gunpowder in the 16th century. Organised warfare with bows ended in the mid 17th century in Europe, but it persisted into the early 19th century in Eastern cultures and in hunting and tribal warfare in the New World. In the Canadian Arctic bows were made until the end of the 20th century for hunting caribou, for instance at Igloolik; the bow has more been used as a weapon of tribal warfare in some parts of Sub-Saharan Africa. The British upper class led a revival of archery from the late 18th century. Sir Ashton Lever, an antiquarian and collector, formed the Toxophilite Society in London in 1781, under the patronage of George Prince of Wales.
The basic elements of a bow are a pair of curved elastic limbs, traditionally made from wood, joined by a riser. Both ends of the limbs are connected by a string known as the bow string. By pulling the string backwards the archer exerts compressive force on the string-facing section, or belly, of the limbs as well as placing the outer section, or back, under tension. While the string is held, this stores the energy released in putting the arrow to flight; the force required to hold the string stationary at full draw is used to express the power of a bow, is known as its draw weight, or weight. Other things being equal, a higher draw weight means a more powerful bow, able to project heavier arrows at the same velocity or the same arrow at a greater velocity; the various parts of the bow can be subdivided into further sections. The topmost limb is known as the upper limb. At the tip of each limb is a nock, used to attach the bowstring to the limbs; the riser is divided into the grip, held by the archer, as well as the arrow rest and the bow window.
The arrow rest is a small ledge or extension above the grip which the arrow rests upon while being aimed. The bow window is that part of the