Converter of specific heat units

Specific heat capacity units converter - converts units based on various energy units (joules, calories, kilocalories), temperature units (Kelvins, Celsius or Fahrenheit degrees) and mass units (grams, kilograms).

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This online calculator is currently under heavy development. It may or it may NOT work correctly.

You CAN try to use it. You CAN even get the proper results.

However, please VERIFY all results on your own, as the level of completion of this item is NOT CONFIRMED.

Feel free to send any ideas and comments !

**Enter the number to field "value"**- enter the NUMBER only, no other words, symbols or unit names. You can use dot (**.**) or comma (**,**) to enter fractions.

Examples:- 1000000
- 123,23
- 999.99999

**Find and select your starting unit in field "unit"**. Some unit calculators have huge number of different units to select from - it's just how complicated our world is...**And... you got the result**in the table below. You'll find several results for many different units - we show you all results we know at once. Just find the one you're looking for.

Unit | Symbol | Value |

joule / kilogram / Kelvin | J / (kg × K) | 4189.9 |

joule / gram / Kelvin | J / (g × K) | 4.1899 |

calorie (thermochemical) / kilogram / Kelvin | cal _{th} / (kg × K) | 1001.41013384 |

calorie (thermochemical) / gram / Kelvin | cal _{th} / (g × K) | 1.001410134 |

calorie (International Table) / kilogram / Kelvin | cal _{IT} / (kg × K) | 1000.74042228 |

calorie (International Table) / gram / Kelvin | cal _{IT} / (g × K) | 1.000740422 |

kilocalorie / kilogram / Kelvin | kcal / (kg × K) | 1.000740422 |

kilocalorie / gram / Kelvin | kcal / (g × K) | 0.00100074 |

Unit | Symbol | Value |

joule / kilogram / degree Celsius | J / (kg × °C) | 4189.9 |

joule / gram / degree Celsius | J / (g × °C) | 4.1899 |

calorie (thermochemical) / kilogram / degree Celsius | cal _{th} / (kg × °C) | 1001.41013384 |

calorie (thermochemical) / gram / degree Celsius | cal _{th} / (g × °C) | 1.001410134 |

calorie (International Table) / kilogram / degree Celsius | cal _{IT} / (kg × °C) | 1000.74042228 |

calorie (International Table) / gram / degree Celsius | cal _{IT} / (g × °C) | 1.000740422 |

kilocalorie / kilogram / degree Celsius | kcal / (kg × °C) | 1.000740422 |

kilocalorie / gram / degree Celsius | kcal / (g × °C) | 0.00100074 |

Unit | Symbol | Value |

joule / kilogram / degree Fahrenheit | J / (kg × °F) | 2327.72222222 |

joule / gram / degree Fahrenheit | J / (g × °F) | 2.327722222 |

calorie (thermochemical) / kilogram / degree Fahrenheit | cal _{th} / (kg × °F) | 556.338963246 |

calorie (thermochemical) / gram / degree Fahrenheit | cal _{th} / (g × °F) | 0.556338963 |

calorie (International Table) / kilogram / degree Fahrenheit | cal _{IT} / (kg × °F) | 555.966901266 |

calorie (International Table) / gram / degree Fahrenheit | cal _{IT} / (g × °F) | 0.555966901 |

kilocalorie / kilogram / degree Fahrenheit | kcal / (kg × °F) | 0.555966901 |

kilocalorie / gram / degree Fahrenheit | kcal / (g × °F) | 0.000555967 |

**Specific heat**is a physical quantity determining**the amount of energy**(heat) that should be supplied (transferred) to one unit of substance mass to**raise the temperature by one unit**.

- The basic specific heat unit in the SI system is
**J / (kg × K)**(joule per kilogram per kelvin). - Specific heat is a
**property of substance**(the so-called material constant). Also, it**depends on external conditions**: pressure and temperature. - The specific heat tells us
**how difficult it is to heat the given body**. Substances with low specific heat change their temperature easily, whereas high ones require much more energy delivered to achieve identical effect. - To calculate the specific heat of the selected substance, we can use the following formula:

c = ΔQ / (m × ΔT)

where:

c - specific heat of the substance,

ΔQ - amount of heat delivered,

m - mass of the heated sample,

ΔT - noted temperature change.

- Due to the
**high compressibility of gases**, two values of specific heat are given in their case:

- C
_{p}- specific heat under constant pressure,

- C
_{v}- specific heat under constant volume.

- C

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