A football, soccer ball, or association football ball is the ball used in the sport of association football. The name of the ball is eballa according to whether the sport is called "football", "soccer", or "association football". The ball's spherical shape, as well as its size, weight, and material composition, are specified by Law 2 of the Laws of the Game maintained by the International Football Association Board. Additional, more stringent, standards are specified by FIFA and subordinate governing bodies for the balls used in the competitions they sanction.
Early footballs began as animal bladders or stomachs that would easily fall apart if kicked too much. Improvements became possible in the 19th century with the introduction of rubber and discoveries of vulcanisation by Charles Goodyear. The modern 32-panel ball design was developed in 1962 by Eigil Nielsen, and technological research continues today to develop footballs with improved performance.
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History
In 1863, the first specifications for footballs were laid down by the Football Association. Previous to this, footballs were made out of inflated leather, with later leather coverings to help footballs maintain their shapes. In 1872 the specifications were revised, and these rules have been left essentially unchanged as defined by the International Football Association Board. Differences in footballs created since this rule came into effect have been to do with the material used in their creation.
Footballs have gone through a dramatic change over time. During medieval times balls were normally made from an outer shell of leather filled with cork shavings. Another method of creating a ball was using animal bladders for the inside of the ball making it inflatable. However, these two styles of creating footballs made it easy for the ball to puncture and were inadequate for kicking. It was not until the 19th century that footballs developed into what a football looks like today.
Vulcanisation
In 1838, Charles Goodyear introduced the use of rubber and their discoveries of vulcanisation, which dramatically improved the football. Vulcanisation is the treatment of rubber to give it certain qualities such as strength, elasticity, and resistance to solvents. Vulcanisation of rubber also helps the football resist moderate heat and cold. Vulcanisation helped create inflatable bladders that pressurise the outer panel arrangement of the football. Charles Goodyear's innovation increased the bounce ability of the ball and made it easier to kick. Most of the balls of this time had tanned leather with eighteen sections stitched together. These were arranged in six panels of three strips each.
Reasons for improvement
During the 1900s, footballs were made out of rubber and leather which was perfect for bouncing and kicking the ball; however, when heading the football (hitting it with the player's head) it was usually painful. This problem was most probably due to water absorption of the leather from rain, which caused a considerable increase in weight, causing head or neck injury. By around 2017, this had also been associated with dementia in former players. Another problem of early footballs was that they deteriorated quickly, as the leather used in manufacturing the footballs varied in thickness and in quality.
Present developments
Elements of the football that today are tested are the deformation of the football when it is kicked or when the ball hits a surface. Two styles of footballs have been tested by the Sports Technology Research Group of Wolfson School of Mechanical and Manufacturing Engineering in Loughborough University; these two models are called the Basic FE model and the Developed FE model of the football. The basic model considered the ball as being a spherical shell with isotropic material properties. The developed model also utilised isotropic material properties but included an additional stiffer stitching seam region.
Future developments
Companies such as Umbro, Mitre, Adidas, Nike, Select and Puma are releasing footballs made out of new materials which are intended to provide more accurate flight and more power to be transferred to the football.
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Construction
Today's footballs are more complex than past footballs. Most modern footballs consist of twelve regular pentagonal and twenty regular hexagonal panels positioned in a truncated icosahedron spherical geometry. Some premium-grade 32-panel balls use non-regular polygons to give a closer approximation to sphericality. The inside of the football is made up of a latex bladder which enables the football to be pressurised. The ball's panel pairs are stitched along the edge; this procedure can either be performed manually or with a machine. The size of a football is roughly 22 cm (8.65 inches) in diameter for a regulation size 5 ball. Rules state that a size 5 ball must be 68 to 70 cm in circumference. Averaging that to 69 cm and then dividing by ? gives about 22 cm for a diameter.
The ball's weight must be in the range of 400 to 450 grams (14 to 16 oz) and inflated to a pressure of between 0.6 and 1.1 bars (8.5 and 15.6 psi) at sea level.
There are a number of different types of football balls depending on the match and turf including: training footballs, match footballs, professional match footballs, beach footballs, street footballs, indoor footballs, turf balls, futsal footballs and mini/skills footballs.
Soccer ball science
In todays soccer world it is all about bending it like Beckham, or being able to kick Ronaldo's famous knuckle ball, but how does this all happen? Science! Mostly physics, the bending of the ball involves the structure of the ball, to the amount of force put into the kick, and the amount of wind or as scientist say it Drag, lift and weight. The Structure of the ball allows for pressure to be accumulated against it, most of the pressure is accumulated against the stitching of ball, The pressure allows the ball while in air to spin or to be just floating in the air with no motion just like knuckle balls in baseball. The pressure on the ball along with a great amount of force from the kick allow the ball to bend. The speed of the ball gives it a trajectory but when the pressure on the ball accumulates on one side of the ball it gives it spin and changes path. The ball center of gravity changes due to the drag from the air or pressure. also Wind is big variable in the bending of the ball but mostly because it could always slow the ball down more than usual or lift it up higher in the air.
Suppliers
Many companies throughout the world produce footballs. The earliest balls were made by local suppliers where the game was played. It is estimated that 40% of all footballs are made in Sialkot, Pakistan, with other major producers being China and India.
As a response to the problems with the balls in the 1962 FIFA World Cup, Adidas created the Adidas Santiago - this led to Adidas winning the contract to supply the match balls for all official FIFA and UEFA matches, which they have held since the 1970s, and also supplied match balls for the 2008 Olympic Games. They also supply the ball for the UEFA Champions League which is called the Adidas Finale.
FIFA World Cup
The following footballs were used in the FIFA World Cup finals tournaments:
UEFA European Championship
The following balls were used in the UEFA European Championship over the years:
Olympic Games
The following balls were used in the football tournament of the Olympic Games (note this list is incomplete):
League balls
The following lists the most up-to-date balls used in various club football competitions:
Unicode
Unicode 5.2 introduces the glyph ? (U+26BD SOCCER BALL), representable in HTML as ⚽
or ⚽
. The addition of this symbol follows a 2008 proposal by Karl Pentzlin.
Source of the article : Wikipedia
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