# หน่วยวัด

**หน่วยวัด**เป็นที่แน่นอนขนาดของปริมาณที่กำหนดไว้และนำมาใช้โดยการประชุมหรือตามกฎหมายที่ใช้เป็นมาตรฐานในการวัดของชนิดเดียวกันของปริมาณ ^{[1]}ปริมาณอื่น ๆ ของชนิดนั้นสามารถแสดงเป็นผลคูณของหน่วยวัดได้ ^{[2]}ตัวอย่างเช่นความยาวเป็นปริมาณทางกายภาพ เมตรคือหน่วยของความยาวที่แสดงถึงความยาวที่กำหนดไว้อย่างชัดเจน เมื่อเราพูดว่า 10 เมตร (หรือ 10 เมตร) เราหมายถึง 10 เท่าของความยาวที่กำหนดไว้ล่วงหน้าซึ่งเรียกว่า "เมตร" การวัดเป็นกระบวนการในการพิจารณาว่าปริมาณทางกายภาพมีขนาดใหญ่หรือน้อยเพียงใดเมื่อเทียบกับปริมาณอ้างอิงพื้นฐานชนิดเดียวกัน

คำจำกัดความข้อตกลงและการใช้หน่วยการวัดในทางปฏิบัติมีบทบาทสำคัญในความพยายามของมนุษย์ตั้งแต่วัยเด็กจนถึงปัจจุบัน ความหลากหลายของระบบของหน่วยงานที่ใช้จะเป็นเรื่องธรรมดามาก ขณะนี้มีมาตรฐานระดับโลกที่ระบบหน่วย (SI) ที่รูปแบบที่ทันสมัยของระบบเมตริก

ในการค้า**น้ำหนักและมาตรการ**มักเป็นเรื่องของกฎระเบียบของรัฐบาลเพื่อให้เกิดความยุติธรรมและโปร่งใส ระหว่างประเทศสำนักชั่งตวงวัด (BIPM) จะมอบหมายกับการสร้างความมั่นใจในความสม่ำเสมอทั่วโลกของการวัดและการตรวจสอบย้อนกลับของพวกเขาเพื่อระบบหน่วย (SI)

มาตรวิทยาเป็นศาสตร์แห่งการพัฒนาหน่วยการวัดที่เป็นที่ยอมรับในระดับประเทศและระดับสากล

ในทางฟิสิกส์และมาตรวิทยาหน่วยเป็นมาตรฐานสำหรับการวัดปริมาณทางกายภาพที่ต้องการคำจำกัดความที่ชัดเจนเพื่อเป็นประโยชน์ การทำสำเนาผลการทดลองเป็นศูนย์กลางวิธีการทางวิทยาศาสตร์ ระบบมาตรฐานของหน่วยอำนวยความสะดวกนี้ ระบบหน่วยทางวิทยาศาสตร์เป็นการปรับแต่งแนวคิดเรื่องน้ำหนักและการวัดที่พัฒนาขึ้นในอดีตเพื่อวัตถุประสงค์ทางการค้า ^{[3]}

วิทยาศาสตร์ , การแพทย์และวิศวกรรมมักจะใช้หน่วยขนาดใหญ่และขนาดเล็กของการวัดกว่าที่ใช้ในชีวิตประจำวัน การเลือกหน่วยการวัดอย่างรอบคอบสามารถช่วยนักวิจัยในการแก้ปัญหาได้ (ดูตัวอย่างการวิเคราะห์มิติ )

ในสังคมศาสตร์ไม่มีหน่วยมาตรฐานการวัดและทฤษฎีและการปฏิบัติของการวัดที่มีการศึกษาในpsychometricsและทฤษฎีของการวัดร่วมกัน

## ประวัติศาสตร์

A unit of measurement is a standardised quantity of a physical property, used as a factor to express occurring quantities of that property. Units of measurement were among the earliest tools invented by humans. Primitive societies needed rudimentary measures for many tasks: constructing dwellings of an appropriate size and shape, fashioning clothing, or bartering food or raw materials.

The earliest known uniform systems of measurement seem to have all been created sometime in the 4th and 3rd millennia BC among the ancient peoples of Mesopotamia, Egypt and the Indus Valley, and perhaps also Elam in Persia as well.

Weights and measures are mentioned in the Bible (Leviticus 19:35–36). It is a commandment to be honest and have fair measures.

In the *Magna Carta* of 1215 (The Great Charter) with the seal of King John, put before him by the Barons of England, King John agreed in Clause 35 "There shall be one measure of wine throughout our whole realm, and one measure of ale and one measure of corn—namely, the London quart;—and one width of dyed and russet and hauberk cloths—namely, two ells below the selvage..."

As of the 21st Century, multiple unit systems are used all over the world such as the United States Customary System, the British Customary System, and the International System. However, the United States is the only industrialized country that has not yet completely converted to the Metric System. The systematic effort to develop a universally acceptable system of units dates back to 1790 when the French National Assembly charged the French Academy of Sciences to come up such a unit system. This system was the precursor to the metric system which was quickly developed in France but did not take on universal acceptance until 1875 when The Metric Convention Treaty was signed by 17 nations. After this treaty was signed, a General Conference of Weights and Measures (CGPM) was established. The CGPM produced the current SI system which was adopted in 1954 at the 10th conference of weights and measures. Currently, the United States is a dual-system society which uses both the SI system and the US Customary system.^{[4]}

## ระบบของหน่วย

The use of a single unit of measurement for some quantity has obvious drawbacks. For example, it is impractical to use the same unit for the distance between two cities and the length of a needle. Thus, historically they would develop independently. One way to make large numbers or small fractions easier to read, is to use unit prefixes.

At some point in time though, the need to relate the two units might arise, and consequently the need to choose one unit as defining the other or vice versa. For example, an inch could be defined in terms of a barleycorn. A system of measurement is a collection of units of measurement and rules relating them to each other.

As science progressed, a need arose to relate the measurement systems of different quantities, like length and weight and volume. The effort of attempting to relate different traditional systems between each other exposed many inconsistencies, and brought about the development of new units and systems.

The system of units varies from country to country and some of the different system of units are CGS system of units, FPS system of units, MKS system of units and SI system of units. Among the different system of units using in the world, the most widely used and internationally accepted one is the International System of Units, or SI system of units. In this SI units system, there are seven SI base units and three supplementary units. The base SI units are metre, kilogram, second, kelvin, ampere, candela and the mole and the three supplementary SI units are radian, steradian and becquerel. All other SI units can be derived from these base units.^{[5]}

Systems of measurement in modern use include the metric system, the imperial system, and United States customary units.

### Traditional systems

Historically many of the systems of measurement which had been in use were to some extent based on the dimensions of the human body. As a result, units of measure could vary not only from location to location but from person to person.

### Metric systems

Metric systems of units have evolved since the adoption of the original metric system in France in 1791. The current international standard metric system is the International System of Units (abbreviated to SI). An important feature of modern systems is standardization. Each unit has a universally recognized size.

Both the imperial units and US customary units derive from earlier English units. Imperial units were mostly used in the British Commonwealth and the former British Empire. US customary units are still the main system of measurement used in the United States outside of science, medicine, many sectors of industry, and some of government and military, and despite Congress having legally authorised metric measure on 28 July 1866.^{[6]} Some steps towards US metrication have been made, particularly the redefinition of basic US and imperial units to derive exactly from SI units. Since the international yard and pound agreement of 1959 the US and imperial inch is now defined as exactly 0.0254 m, and the US and imperial avoirdupois pound is now defined as exactly 453.59237 g.^{[7]}

### Natural systems

While the above systems of units are based on arbitrary unit values, formalised as standards, some unit values occur naturally in science. Systems of units based on these are called natural units. Similar to natural units, atomic units (au) are a convenient system of units of measurement used in atomic physics.

Also a great number of unusual and non-standard units may be encountered. These may include the solar mass (2×10^{30} kg), the megaton (the energy released by detonating one million tons of trinitrotoluene, TNT) and the electronvolt.

### Legal control of weights and measures

To reduce the incidence of retail fraud, many national statutes have standard definitions of weights and measures that may be used (hence "statute measure"), and these are verified by legal officers.^{[citation needed]}

### Informal comparison to familiar concepts

In informal settings, a quantity may be described as multiples of that of a familiar entity, which can be easier to contextualize than a value in a formal unit system. For instance, a publication may describe an area in a foreign country as a number of multiples of the area of a region local to the readership. The propensity for certain concepts to be used frequently can give rise to loosely defined "systems" of units.^{[8]}^{[9]}

## ฐานและหน่วยที่ได้รับ

For most quantities a unit is necessary to communicate values of that physical quantity. For example, conveying to someone a particular length without using some sort of unit is impossible, because a length cannot be described without a reference used to make sense of the value given.

But not all quantities require a unit of their own. Using physical laws, units of quantities can be expressed as combinations of units of other quantities. Thus only a small set of units is required. These units are taken as the *base units* and the other units are *derived units*. Thus base units are the units of the quantities which are independent of other quantities and they are the units of length, mass, time, electric current, temperature, luminous intensity and the amount of substance. Derived units are the units of the quantities which are derived from the base quantities and some of the derived units are the units of speed, work, acceleration, energy, pressure etc.^{[5]}

Different systems of units are based on different choices of a set of related units including fundamental and derived units.

## การคำนวณด้วยหน่วยการวัด

### Units as dimensions

Any value of a physical quantity is expressed as a comparison to a unit of that quantity. For example, the value of a physical quantity *Z* is expressed as the product of a unit [Z] and a numerical factor:

- For example, let be "2 candlesticks", then candlestick.

The multiplication sign is usually left out, just as it is left out between variables in scientific notation of formulas. The conventions used to express quantities is referred to as quantity calculus. In formulas the unit [Z] can be treated as if it were a specific magnitude of a kind of physical dimension: see dimensional analysis for more on this treatment.

Units can only be added or subtracted if they are the same type; however units can always be multiplied or divided, as George Gamow used to explain. Let be "2 candlesticks" and "3 cabdrivers", then

- "2 candlesticks" times "3 cabdrivers" candlestick cabdriver.

A distinction should be made between units and standards. A unit is fixed by its definition, and is independent of physical conditions such as temperature. By contrast, a standard is a physical realization of a unit, and realizes that unit only under certain physical conditions. For example, the metre is a unit, while a metal bar is a standard. One metre is the same length regardless of temperature, but a metal bar will be exactly one metre long only at a certain temperature.

There are certain rules that have to be used when dealing with units:

- Treat units algebraically. Only add like terms. When a unit is divided by itself, the division yields a unitless one. When two different units are multiplied or divided, the result is a new unit, referred to by the combination of the units. For instance, in SI, the unit of speed is metres per second (m/s). See dimensional analysis. A unit can be multiplied by itself, creating a unit with an exponent (e.g. m
^{2}/s^{2}). Put simply, units obey the laws of indices. (See Exponentiation.) - Some units have special names, however these should be treated like their equivalents. For example, one newton (N) is equivalent to 1 kg⋅m/s
^{2}. Thus a quantity may have several unit designations, for example: the unit for surface tension can be referred to as either N/m (newton per metre) or kg/s^{2}(kilogram per second squared).

### Expressing a physical value in terms of another unit

Conversion of units involves comparison of different standard physical values, either of a single physical quantity or of a physical quantity and a combination of other physical quantities.

Starting with:

replace the original unit with its meaning in terms of the desired unit , e.g. if , then:

Now and are both numerical values, so just calculate their product.

Or, which is just mathematically the same thing, multiply *Z* by unity, the product is still *Z*:

For example, you have an expression for a physical value *Z* involving the unit *feet per second* () and you want it in terms of the unit *miles per hour* ():

- Find facts relating the original unit to the desired unit:
- 1 mile = 5280 feet and 1 hour = 3600 seconds

- Next use the above equations to construct a fraction that has a value of unity and that contains units such that, when it is multiplied with the original physical value, will cancel the original units:
- Last, multiply the original expression of the physical value by the fraction, called a
*conversion factor*, to obtain the same physical value expressed in terms of a different unit. Note: since valid conversion factors are dimensionless and have a numerical value of one, multiplying any physical quantity by such a conversion factor (which is 1) does not change that physical quantity.

Or as an example using the metric system, you have a value of fuel economy in the unit *litres per 100 kilometres* and you want it in terms of the unit *microlitres per metre*:

## ผลกระทบในโลกแห่งความเป็นจริง

One example of the importance of agreed units is the failure of the NASA Mars Climate Orbiter, which was accidentally destroyed on a mission to Mars in September 1999 instead of entering orbit due to miscommunications about the value of forces: different computer programs used different units of measurement (newton versus pound force). Considerable amounts of effort, time, and money were wasted.^{[10]}^{[11]}

On 15 April 1999, Korean Air cargo flight 6316 from Shanghai to Seoul was lost due to the crew confusing tower instructions (in metres) and altimeter readings (in feet). Three crew and five people on the ground were killed. Thirty-seven were injured.^{[12]}^{[13]}

In 1983, a Boeing 767 (which thanks to its pilot's gliding skills landed safely and became known as the Gimli Glider) ran out of fuel in mid-flight because of two mistakes in figuring the fuel supply of Air Canada's first aircraft to use metric measurements.^{[14]} This accident was the result of both confusion due to the simultaneous use of metric and Imperial measures and confusion of mass and volume measures.

When planning his journey across the Atlantic Ocean in the 1480s, Columbus mistakenly assumed that the mile referred to in the Arabic estimate of 56⅔ miles for the size of a degree was the same as the actually much shorter Italian mile of 1,480 meters. His estimate for the size of the degree and for the circumference of the Earth was therefore about 25% too small.^{[15]}

## ดูสิ่งนี้ด้วย

- GNU Units
- List of humorous units of measurement
- List of obsolete units of measurement
- List of unusual units of measurement
- Metric units
- Numerical value equation
- Scottish units
- Seconds pendulum
- Space (punctuation)#Unit symbols and numbers
- System of measurement
- Unified Code for Units of Measure
- United States customary units
- Unit of account
- Units of information

## หมายเหตุ

**^**"measurement unit", in International Vocabulary of Metrology – Basic and General Concepts and Associated Terms (VIM) (PDF) (3rd ed.), Joint Committee for Guides in Metrology, 2008, pp. 6–7.**^**"Units of Measurement".*www.ibiblio.org*.**^**"1.3 The Language of Physics: Physical Quantities and Units | Texas Gateway".*www.texasgateway.org*.**^**Yunus A. Çengel & Michael A. Boles (2002).*Thermodynamics: An Engineering Approach*(Eighth ed.). TN: McGraw Hill. p. 996. ISBN 9780073398174.CS1 maint: uses authors parameter (link)- ^ a b "Measurement in Physics & SI units of Measurement".
*HelpYouBetter*. 15 November 2018. Retrieved 15 August 2019. **^**"US Metric Act of 1866". Archived from the original on 10 October 2014. as amended by Public Law 110–69 dated 9 August 2007**^**"NIST Handbook 44 Appendix B". National Institute of Standards and Technology. 2002. Archived from the original on 13 February 2007. Retrieved 18 February 2007.**^**Marsh, David (17 May 2010). "Mind your language: Wales, Belgium and other units of measurement".*the Guardian*. Retrieved 30 August 2018.**^**"Size of Wales".*The Economist*. Retrieved 30 August 2018.**^**"Unit Mixups". US Metric Association. Archived from the original on 23 September 2010.**^**"Mars Climate Orbiter Mishap Investigation Board Phase I Report" (PDF). NASA. 10 November 1999. Archived from the original (PDF) on 27 October 2009.**^**"Korean Air Flight 6316" (Press release). NTSB. Archived from the original on 6 October 2006.**^**"Korean Air incident". Aviation Safety Net. Archived from the original on 31 July 2013.**^**Witkin, Richard (30 July 1983). "Jet's Fuel Ran Out After Metric Conversion Errors".*New York Times*. Retrieved 21 August 2007.Air Canada said yesterday that its Boeing 767 jet ran out of fuel in mid-flight last week because of two mistakes in figuring the fuel supply of the airline's first aircraft to use metric measurements. After both engines lost their power, the pilots made what is now thought to be the first successful emergency

*dead stick*landing of a commercial jetliner.**^**Nunn & Edwards 1924, pp. 1–2, 17–18.

## ลิงก์ภายนอก

- Rowlett, Russ (2005) A Dictionary of Units of Measurement – Russ Rowlett and the University of North Carolina at Chapel Hill
- NIST Handbook 44,
*Specifications, Tolerances, and Other Technical Requirements for Weighing and Measuring Devices* - Official SI website
- Quantity System Framework – Quantity System Library and Calculator for Units Conversions and Quantities predictions
- List of units with selected conversion factors

- Historical

- "Arithmetic Conventions for Conversion Between Roman [i.e. Ottoman] and Egyptian Measurement" is a manuscript from 1642, in Arabic, which is about units of measurement.
*New International Encyclopedia*. 1905. .

- Legal

- Ireland – Metrology Act 1996
- Text of the Units of Measurement Regulations 1995 as in force today (including any amendments) within the United Kingdom, from legislation.gov.uk.

- Metric information

- BIPM (official site)
- The Unified Code for Units of Measure (UCUM)