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Calories
Calories

Calories are units of energy. Various definitions exist but fall into two broad categories.
Although these units relate to the metric system all forms of the calorie were deemed obsolete in science after the SI system was adopted in the 1950s. The unit of energy in the International System of Units is the joule. One small calorie is approximately 4.2 joules (so one large calorie is about 4.2 kilojoules). The factor used to convert calories to joules at a given temperature is numerically equivalent to the specific heat capacity of water expressed in joules per kelvin per gram or per kilogram. The precise conversion factor depends on the definition adopted.
In spite of its nonofficial status, the large calorie is still widely used as a unit of food energy. The small calorie is also often used for measurements in chemistry, although the amounts involved are typically recorded in kilocalories.
The calorie was first defined by Nicolas Clément in 1824 as a unit of heat energy, and entered French and English dictionaries between 1841 and 1867. The word comes from Latin calor meaning "heat".
The energy needed to increase the temperature of a given mass of water by 1 °C depends on the atmospheric pressure and the starting temperature. Accordingly, several different precise definitions of the calorie have been used.
The pressure is usually taken to be the standard atmospheric pressure (). The temperature increase can be expressed as one 101.325 kPakelvin, which means the same as an increment of one degree Celsius.
≈ 964 BTU ≈ 0.003×10^{−6} kWh ≈ 1.162×10^{19} eV 2.611
Name Symbol Conversions Notes Thermochemical calorie cal_{th} ≡ J 4.184 the amount of energy equal to exactly 4.184 joules 4 °C calorie cal_{4} ≈ 4.204 J ≈ 985 BTU ≈ 1.168 0.003×10^{−6} kWh ≈ 2.624×10^{19} eV
the amount of energy required to warm one gram of airfree water from 3.5 to 4.5 °C at standard atmospheric pressure. 15 °C calorie cal_{15} ≈ 4.1855 J ≈ 9671 BTU ≈ 1.1626 0.003×10^{−6} kWh ≈ 2.6124×10^{19} eV
the amount of energy required to warm one gram of airfree water from 14.5 to 15.5 °C at standard atmospheric pressure. Experimental values of this calorie ranged from 4.1852 to 4.1858 J. The CIPM in 1950 published a mean experimental value of 4.1855 J, noting an uncertainty of 0.0005 J. 20 °C calorie cal_{20} ≈ 4.182 J ≈ 964 BTU ≈ 1.162 0.003×10^{−6} kWh ≈ 2.610×10^{19} eV
the amount of energy required to warm one gram of airfree water from 19.5 to 20.5 °C at standard atmospheric pressure. Mean calorie cal_{mean} ≈ 4.190 J ≈ 971 BTU ≈ 1.164 0.003×10^{−6} kWh ≈ 2.615×10^{19} eV
^{1}⁄_{100} of the amount of energy required to warm one gram of airfree water from 0 to 100 °C at standard atmospheric pressure. International Steam table calorie (1929) ≈ 4.1868 J ≈ 9683 BTU ≈ 1.1630 0.003×10^{−6} kWh ≈ 2.6132×10^{19} eV
^{1}⁄_{860} international watt hours = ^{180}⁄_{43} international joules exactly. International Steam Table calorie (1956) cal_{IT} ≡ 4.1868 J ≈ 9683 BTU ≈ 1.1630 0.003×10^{−6} kWh ≈ 2.6132×10^{19} eV
1.163 mW·h = 4.1868 J exactly. This definition was adopted by the Fifth International Conference on Properties of Steam (London, July 1956).
 The small calorie or gram calorie (symbol: cal) is the approximate amount of energy needed to raise the temperature of one gram of water by one degree Celsius at a pressure of one atmosphere.
 The large calorie or kilogram calorie (symbol: Cal), also known as the food calorie and similar names, is defined in terms of the kilogram rather than the gram. It is equal to small calories or 1 kilocalorie (symbol: kcal). 1000

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