Misplaced Pages

#649350

56-590: The Sapporo Satoland was established in 1995. Facilities have been run by the Sato Mirai Project Group since April 1, 2006. After the expansion to the west side in 2004, the total area of the Satoland was extended to about 74 ha . The Sapporo Snow Festival , which has usually had three main sites, gave up using the Makomanai site in 2005, and moved instead to Satoland, where huge snow slides and

112-679: A dash ; for example, 1-21-00.26 ha would mean 1 hectare, 21 ares, and 0.26 centiares (12,100.26 m ). The metric system of measurement was first given a legal basis in 1795 by the French Revolutionary government. The law of 18 Germinal, Year III (7 April 1795) defined five units of measure: In 1960, when the metric system was updated as the International System of Units (SI), the are did not receive international recognition. The International Committee for Weights and Measures ( CIPM ) makes no mention of

168-404: A double prefix is non-standard. The decimilliare is (100 mm) or roughly a four-inch-by-four-inch square. The centiare is one square metre. The deciare (rarely used) is ten square metres. The are ( / ɑːr / or / ɛər / ) is a unit of area, equal to 100 square metres ( 10 m × 10 m ), used for measuring land area. It was defined by older forms of the metric system , but

224-466: A coherent system the units of force , energy , and power are chosen so that the equations hold without the introduction of unit conversion factors. Once a set of coherent units has been defined, other relationships in physics that use this set of units will automatically be true. Therefore, Einstein 's mass–energy equation , E = mc , does not require extraneous constants when expressed in coherent units. The CGS system had two units of energy,

280-769: A commission to implement this new standard alone, and in 1799, the new system was launched in France. The units of the metric system, originally taken from observable features of nature, are now defined by seven physical constants being given exact numerical values in terms of the units. In the modern form of the International System of Units (SI), the seven base units are: metre for length, kilogram for mass, second for time, ampere for electric current, kelvin for temperature, candela for luminous intensity and mole for amount of substance. These, together with their derived units, can measure any physical quantity. Derived units may have their own unit name, such as

336-595: A decimal multiple of it; and the unit of mass should be the gram or a decimal multiple of it. Metric systems have evolved since the 1790s, as science and technology have evolved, in providing a single universal measuring system. Before and in addition to the SI, other metric systems include: the MKS system of units and the MKSA systems, which are the direct forerunners of the SI; the centimetre–gram–second (CGS) system and its subtypes,

392-439: A few other units including the are (and implicitly the hectare ) whose use was limited to the measurement of land. The names centiare , deciare , decare and hectare are derived by adding the standard metric prefixes to the original base unit of area, the are . The decimilliare (dma, sometimes seen in cadastre area evaluation of real estate plots) is 1 ⁄ 10,000 are or one square decimetre. Such usage of

448-450: A fourth base unit, the various anomalies in electromagnetic systems could be resolved. The metre–kilogram–second– coulomb (MKSC) and metre–kilogram–second– ampere (MKSA) systems are examples of such systems. The metre–tonne–second system of units (MTS) was based on the metre, tonne and second – the unit of force was the sthène and the unit of pressure was the pièze . It was invented in France for industrial use and from 1933 to 1955

504-536: A maze have featured during the festival. From the 2009 festival, the site switched to the nearby Sapporo Community Dome (Tsudome). Remains of the early Satsumon period , a prehistoric period in Hokkaidō between 9th and early 10th century, are located in the park, and grain relics show that there was cultivation here during the Satsumon period. Agricultural activities in the Satsumon period were previously unknown, and

560-550: A measure of land area. The names of the older land measures of similar size are usually used, redefined as exactly one decare: The most commonly used units are in bold . One hectare is also equivalent to: The Unicode character U+33CA ㏊ SQUARE HA , in the CJK Compatibility block, is intended for compatibility with pre-existing East Asian character codes. It is not intended for use in alphabetic contexts. U+3336 ㌶ SQUARE HEKUTAARU

616-474: A metre. This is unlike older systems of units in which the ratio between the units for longer and shorter distances varied: there are 12 inches in a foot, but the number of 5,280 feet in a mile is not a power of 12. For many everyday applications, the United States has resisted the adoption of a decimal-based system, continuing to use "a conglomeration of basically incoherent measurement systems ". In

SECTION 10

#1732772227650

672-556: A number of different ways over the centuries. The SI system originally derived its terminology from the metre, kilogram, second system of units , though the definitions of the fundamental SI units have been changed to depend only on constants of nature. Other metric system variants include the centimetre–gram–second system of units , the metre–tonne–second system of units , and the gravitational metric system . Each of these has some unique named units (in addition to unaffiliated metric units ) and some are still in use in certain fields. In

728-420: A representative quantity is defined as a base unit of measure. The definition of base units has increasingly been realised in terms of fundamental natural phenomena, in preference to copies of physical artefacts. A unit derived from the base units is used for expressing quantities of dimensions that can be derived from the base dimensions of the system—e.g., the square metre is the derived unit for area, which

784-406: A second greater than 1; the non-SI units of minute , hour and day are used instead. On the other hand, prefixes are used for multiples of the non-SI unit of volume, the litre (l, L) such as millilitres (ml). Each variant of the metric system has a degree of coherence—the derived units are directly related to the base units without the need for intermediate conversion factors. For example, in

840-480: A standard without reliance on an artefact held by another country. In practice, such realisation is done under the auspices of a mutual acceptance arrangement . In 1791 the commission originally defined the metre based on the size of the earth, equal to one ten-millionth of the distance from the equator to the North Pole. In the SI, the standard metre is now defined as exactly 1 ⁄ 299 792 458 of

896-439: Is a non-SI metric unit of area equal to a square with 100- metre sides (1 hm ), that is, 10,000 square metres (10,000 m ), and is primarily used in the measurement of land. There are 100 hectares in one square kilometre. An acre is about 0.405 hectares and one hectare contains about 2.47 acres. In 1795, when the metric system was introduced, the are was defined as 100 square metres , or one square decametre , and

952-673: Is a combination of ヘクタール ( hekutāru ), the Japanese translation of "hectare". Metric system The metric system is a decimal -based system of measurement . The current international standard for the metric system is the International System of Units (Système international d'unités or SI), in which all units can be expressed in terms of seven base units: the metre (m), kilogram (kg), second (s), ampere (A), kelvin (K), mole (mol), and candela (cd). These can be made into larger or smaller units with

1008-411: Is derived from length. These derived units are coherent , which means that they involve only products of powers of the base units, without any further factors. For any given quantity whose unit has a name and symbol, an extended set of smaller and larger units is defined that are related by factors of powers of ten. The unit of time should be the second ; the unit of length should be either the metre or

1064-470: Is expressed in g/cm , force expressed in dynes and mechanical energy in ergs . Thermal energy was defined in calories , one calorie being the energy required to raise the temperature of one gram of water from 15.5 °C to 16.5 °C. The meeting also recognised two sets of units for electrical and magnetic properties – the electrostatic set of units and the electromagnetic set of units. The CGS units of electricity were cumbersome to work with. This

1120-456: Is now outside the modern International System of Units (SI). It is still commonly used in speech to measure real estate, in particular in Indonesia, India, and in various European countries. In Russian and some other languages of the former Soviet Union , the are is called sotka (Russian: сотка : 'a hundred', i.e. 100 m or 1 ⁄ 100 hectare). It is used to describe

1176-597: The Avogadro number number of specified molecules, was added along with several other derived units. The system was promulgated by the General Conference on Weights and Measures (French: Conférence générale des poids et mesures – CGPM) in 1960. At that time, the metre was redefined in terms of the wavelength of a spectral line of the krypton-86 atom (krypton-86 being a stable isotope of an inert gas that occurs in undetectable or trace amounts naturally), and

SECTION 20

#1732772227650

1232-538: The CGS electrostatic (cgs-esu) system, the CGS electromagnetic (cgs-emu) system, and their still-popular blend, the Gaussian system ; the metre–tonne–second (MTS) system; and the gravitational metric systems , which can be based on either the metre or the centimetre, and either the gram, gram-force, kilogram or kilogram-force. The SI has been adopted as the official system of weights and measures by nearly all nations in

1288-529: The International System of Units (SI). The International System of Units is the modern metric system. It is based on the metre–kilogram–second–ampere (MKSA) system of units from early in the 20th century. It also includes numerous coherent derived units for common quantities like power (watt) and irradience (lumen). Electrical units were taken from the International system then in use. Other units like those for energy (joule) were modelled on those from

1344-570: The Mètre des Archives and Kilogramme des Archives (or their descendants) as their base units, but differing in the definitions of the various derived units. In 1832, Gauss used the astronomical second as a base unit in defining the gravitation of the Earth, and together with the milligram and millimetre, this became the first system of mechanical units . He showed that the strength of a magnet could also be quantified in terms of these units, by measuring

1400-551: The Practical System of Electric Units , or QES (quad–eleventhgram–second) system, was being used. Here, the base units are the quad, equal to 10  m (approximately a quadrant of the Earth's circumference), the eleventhgram, equal to 10  g , and the second. These were chosen so that the corresponding electrical units of potential difference, current and resistance had a convenient magnitude. In 1901, Giovanni Giorgi showed that by adding an electrical unit as

1456-593: The are in the 2019 edition of the SI brochure, but classifies the hectare as a "Non-SI unit accepted for use with the International System of Units". In 1972, the European Economic Community (EEC) passed directive 71/354/EEC, which catalogued the units of measure that might be used within the Community. The units that were catalogued replicated the recommendations of the CGPM, supplemented by

1512-486: The erg that was related to mechanics and the calorie that was related to thermal energy ; so only one of them (the erg) could bear a coherent relationship to the base units. Coherence was a design aim of SI, which resulted in only one unit of energy being defined – the joule . Maxwell's equations of electromagnetism contained a factor of 1 / ( 4 π ) {\displaystyle 1/(4\pi )} relating to steradians , representative of

1568-448: The watt (J/s) and lux (cd/m ), or may just be expressed as combinations of base units, such as velocity (m/s) and acceleration (m/s ). The metric system was designed to have properties that make it easy to use and widely applicable, including units based on the natural world, decimal ratios, prefixes for multiples and sub-multiples, and a structure of base and derived units. It is a coherent system , derived units were built up from

1624-465: The SI, being equivalent to a square hectometre. It is widely used throughout the world for the measurement of large areas of land, and it is the legal unit of measure in domains concerned with land ownership, planning, and management , including law ( land deeds ), agriculture, forestry , and town planning throughout the European Union , New Zealand and Australia (since 1970). However,

1680-637: The Satoland Interchange Hall is a hall designed for events. Visitors can eat organic vegetables grown in Hokkaidō at the restaurant and shops in the building. The agricultural experience program, including butter, sausage, and ice cream making experiences, has been held at the farm in the park. A bus and carriage run around the park. 43°07′10″N 141°24′56″E  /  43.119573°N 141.415528°E  / 43.119573; 141.415528 Hectare The hectare ( / ˈ h ɛ k t ɛər , - t ɑːr / ; SI symbol: ha )

1736-947: The United Kingdom, the United States, Myanmar (Burma), and to some extent Canada, use the acre instead of the hectare for measuring surface or land area. Some countries that underwent a general conversion from traditional measurements to metric measurements (e.g. Canada) required a resurvey when units of measure in legal descriptions relating to land were converted to metric units. Others, such as South Africa, published conversion factors which were to be used particularly "when preparing consolidation diagrams by compilation". In many countries, metrification redefined or clarified existing measures in terms of metric units. The following legacy units of area have been redefined as being equal to one hectare: In Mexico, land area measurements are commonly given as combinations of hectares, ares, and centiares. These are commonly written separated by

Sapporo Satoland - Misplaced Pages Continue

1792-436: The base units using logical rather than empirical relationships while multiples and submultiples of both base and derived units were decimal-based and identified by a standard set of prefixes . The metric system is extensible, and new derived units are defined as needed in fields such as radiology and chemistry. For example, the katal , a derived unit for catalytic activity equivalent to one mole per second (1 mol/s),

1848-463: The definition of the International System of Units (SI) in the mid-20th century, under the oversight of an international standards body. Adopting the metric system is known as metrication . The historical evolution of metric systems has resulted in the recognition of several principles. A set of independent dimensions of nature is selected, in terms of which all natural quantities can be expressed, called base quantities. For each of these dimensions,

1904-514: The dekare/decare daa (1,000 m ) and are (100 m ) are not officially "accepted for use", they are still used in some contexts. The hectare ( / ˈ h ɛ k t ɛər , - t ɑː r / ), although not a unit of SI, is the only named unit of area that is accepted for use with SI units . The name was coined in French, from the Latin ārea . In practice the hectare is fully derived from

1960-421: The distance that light travels in a second . The metre can be realised by measuring the length that a light wave travels in a given time, or equivalently by measuring the wavelength of light of a known frequency. The kilogram was originally defined as the mass of one cubic decimetre of water at 4 °C, standardised as the mass of a man-made artefact of platinum–iridium held in a laboratory in France, which

2016-401: The early days, multipliers that were positive powers of ten were given Greek-derived prefixes such as kilo- and mega- , and those that were negative powers of ten were given Latin-derived prefixes such as centi- and milli- . However, 1935 extensions to the prefix system did not follow this convention: the prefixes nano- and micro- , for example have Greek roots. During the 19th century

2072-425: The fact that electric charges and magnetic fields may be considered to emanate from a point and propagate equally in all directions, i.e. spherically. This factor made equations more awkward than necessary, and so Oliver Heaviside suggested adjusting the system of units to remove it. The basic units of the metric system, as originally defined, represented common quantities or relationships in nature. They still do –

2128-407: The hectare (" hecto- " + "are") was thus 100 ares or 1 ⁄ 100  km (10,000 square metres). When the metric system was further rationalised in 1960, resulting in the International System of Units ( SI ), the are was not included as a recognised unit. The hectare, however, remains as a non-SI unit accepted for use with the SI and whose use is "expected to continue indefinitely". Though

2184-421: The kilogram in terms of fundamental constants. A base quantity is one of a conventionally chosen subset of physical quantities, where no quantity in the subset can be expressed in terms of the others. A base unit is a unit adopted for expressing a base quantity. A derived unit is used for expressing any other quantity, and is a product of powers of base units. For example, in the modern metric system, length has

2240-419: The metric system, multiples and submultiples of units follow a decimal pattern. A common set of decimal-based prefixes that have the effect of multiplication or division by an integer power of ten can be applied to units that are themselves too large or too small for practical use. The prefix kilo , for example, is used to multiply the unit by 1000, and the prefix milli is to indicate a one-thousandth part of

2296-510: The modern precisely defined quantities are refinements of definition and methodology, but still with the same magnitudes. In cases where laboratory precision may not be required or available, or where approximations are good enough, the original definitions may suffice. Basic units: metre , kilogram , second , ampere , kelvin , mole , and candela for derived units, such as Volts and Watts, see International System of Units . A number of different metric system have been developed, all using

Sapporo Satoland - Misplaced Pages Continue

2352-430: The older CGS system, but scaled to be coherent with MKSA units. Two additional base units – the kelvin , which is equivalent to degree Celsius for change in thermodynamic temperature but set so that 0 K is absolute zero , and the candela , which is roughly equivalent to the international candle unit of illumination – were introduced. Later, another base unit, the mole , a unit of amount of substance equivalent to

2408-607: The original, called the IPK . It became apparent that either the IPK or the replicas or both were deteriorating, and are no longer comparable: they had diverged by 50 μg since fabrication, so figuratively, the accuracy of the kilogram was no better than 5 parts in a hundred million or a relative accuracy of 5 × 10 . The revision of the SI replaced the IPK with an exact definition of the Planck constant as expressed in SI units, which defines

2464-606: The oscillations of a magnetised needle and finding the quantity of "magnetic fluid" that produces an acceleration of one unit when applied to a unit mass. The centimetre–gram–second system of units (CGS) was the first coherent metric system, having been developed in the 1860s and promoted by Maxwell and Thomson. In 1874, this system was formally promoted by the British Association for the Advancement of Science (BAAS). The system's characteristics are that density

2520-454: The prefix myria- , derived from the Greek word μύριοι ( mýrioi ), was used as a multiplier for 10 000 . When applying prefixes to derived units of area and volume that are expressed in terms of units of length squared or cubed, the square and cube operators are applied to the unit of length including the prefix, as illustrated below. Prefixes are not usually used to indicate multiples of

2576-538: The relics in Satoland have provided a clue to understand the origin of agriculture in Hokkaidō prefecture. The location of the Sapporo Satoland is close to the Moerenuma Park , and food processing facility, event venues, farm, pasture, flower gardens, and park golf ground are located in the area. The free parking lot houses 1,800 vehicles. The Satoland Centre has a restaurant and meeting rooms, and

2632-595: The size of suburban dacha or allotment garden plots or small city parks where the hectare would be too large. Many Russian dachas are 6 ares in size (in Russian, шесть соток ). The decare or dekare ( / ˈ d ɛ k ɑːr , - ɛər / ) is derived from deca and are , and is equal to 10 ares or 1000 square metres. It is used in Norway and in the former Ottoman areas of the Middle East and Bulgaria as

2688-460: The standard metre artefact from 1889 was retired. Today, the International system of units consists of 7 base units and innumerable coherent derived units including 22 with special names. The last new derived unit, the katal for catalytic activity, was added in 1999. All the base units except the second are now defined in terms of exact and invariant constants of physics or mathematics, barring those parts of their definitions which are dependent on

2744-411: The unit metre and time has the unit second, and speed has the derived unit metre per second. Density, or mass per unit volume, has the unit kilogram per cubic metre. A characteristic feature of metric systems is their reliance upon multiples of 10. For example, the base unit of length is the metre, and distances much longer or much shorter than 1 metre are measured in units that are powers of 10 times

2800-454: The unit. Thus the kilogram and kilometre are a thousand grams and metres respectively, and a milligram and millimetre are one thousandth of a gram and metre respectively. These relations can be written symbolically as: The decimalised system is based on the metre , which had been introduced in France in the 1790s . The historical development of these systems culminated in

2856-627: The use of metric prefixes . SI derived units are named combinations – such as the hertz (cycles per second), newton (kg⋅m/s ), and tesla (1 kg⋅s ⋅A ) – or a shifted scale, in the case of degrees Celsius . Certain units have been officially accepted for use with the SI . Some of these are decimalised, like the litre and electronvolt , and are considered "metric". Others, like the astronomical unit are not. Ancient non-metric but SI-accepted multiples of time ( minute and hour ) and angle ( degree , arcminute , and arcsecond ) are sexagesimal (base 60). The "metric system" has been formulated in

SECTION 50

#1732772227650

2912-644: The world. The French Revolution (1789–99) enabled France to reform its many outdated systems of various local weights and measures. In 1790, Charles Maurice de Talleyrand-Périgord proposed a new system based on natural units to the French National Assembly , aiming for global adoption. With the United Kingdom not responding to a request to collaborate in the development of the system, the French Academy of Sciences established

2968-435: Was added in 1999. The base units used in a measurement system must be realisable . Each of the definitions of the base units in the SI is accompanied by a defined mise en pratique [practical realisation] that describes in detail at least one way in which the base unit can be measured. Where possible, definitions of the base units were developed so that any laboratory equipped with proper instruments would be able to realise

3024-543: Was remedied at the 1893 International Electrical Congress held in Chicago by defining the "international" ampere and ohm using definitions based on the metre , kilogram and second , in the International System of Electrical and Magnetic Units . During the same period in which the CGS system was being extended to include electromagnetism, other systems were developed, distinguished by their choice of coherent base unit, including

3080-479: Was used both in France and in the Soviet Union . Gravitational metric systems use the kilogram-force (kilopond) as a base unit of force, with mass measured in a unit known as the hyl , Technische Masseneinheit (TME), mug or metric slug . Although the CGPM passed a resolution in 1901 defining the standard value of acceleration due to gravity to be 980.665 cm/s , gravitational units are not part of

3136-521: Was used until a new definition was introduced in May 2019 . Replicas made in 1879 at the time of the artefact's fabrication and distributed to signatories of the Metre Convention serve as de facto standards of mass in those countries. Additional replicas have been fabricated since as additional countries have joined the convention. The replicas were subject to periodic validation by comparison to

#649350