Energy Unit Conversions |

- Here is a handy conversion calculator for some common energy, wavelength
and frequency terms, including some that you might find on an MSDS.

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Unit | Equivalent measurements, comments |
---|---|

Wavenumber
(cm ^{-1}) |
A wavelength of energy that is also called a reciprocal centimeter.
Wavenumbers are obtained when frequency is expressed in Hertz and the speed
of light is expressed in cm/s. This unit is commonly used in infrared spectroscopy. |

Kilojoules per mole
(kJ/mol, kJ ^{.}mol^{-1}) |
A Joule, J, is the SI unit of energy and is defined as one kg^{.}m^{2}/s^{2}.
The prefix "kilo" means 1,000, so one kJ = 1,000 J. As the energies associated
with a single molecule or atom are quite small, we often find it easier
to discuss the energy found in one mole of the
substance, hence "per mole". To get the energy for one molecule, divide
kJ/mol by Avogadro's number, 6.022 x 10^{23}. |

Kilocalories per mole
(kcal/mol, kcal ^{.}mol^{-1}) |
A calorie was originally defined as the amount of energy required to raise the temperature of one gram of water by one degree Celsius. One calorie = 4.184 J. One kcal = 1,000 cal. When we count calories in our food, we are actually referring to kilocalories; e.g. 1 dietary Calorie = 1,000 cal = 1 kcal. See the note in the previous entry for information about the mole part of this unit. |

Nanometer
nm |
The prefix "nano" means 1 x 10^{-9} = 0.000000001 = 1/1,000,000,000.
Therefore, a nanometer refers to energy with a wavelength that is 1/1,000,000,000^{th}
of a meter. Visible light is made of up
electromagnetic radiation that has wavelengths ranging from roughly 300
to 800 nm. For additional conversions of nm (as a distance, not energy),
see our distance units page. |

Hertz
(s ^{-1}, Hz, /s) |
A Hertz is a unit of frequency defined as a reciprocal second, s^{-1}.
For example, AC current cycles polarity 60 times per second, so we could
call this 60 Hz = 60 s^{-1}. Human hearing has a frequency range
from a few hundred Hz up to approximately 20,000 Hz. |

Megahertz
(MHz) |
The prefix "mega" means 1,000,000, so there are 1,000,000 Hz in one MHz. This is a typical frequency for radio equipment as well as high-tech scientific instruments such as magnetic resonance imaging (MRI, or NMR) scanners. |

Electron Volt
(eV) |
The electron volt is the energy that we would give an electron if it
were accelerated by a one volt potential difference. 1 eV = 1.602 x 10^{-19}
J. This term is most often used by physicists and electrochemists. |

For the budding scientist: Here are the two relationships that
relate energy, frequency and wavelength. The first is c = nl
where c = the speed of light in vacuum (3.00 x 10^{8} m/s), n
= frequency and l is wavelength. The second
is E = hn where E = energy, h is a special
constant called Planck's constant (6.63 x 10^{-34}J^{.}s)
and n is again frequency. The second equation
tells us that frequency is proportional to energy. Combining the two, we
find that frequency and energy are inversely proportional to wavelength. |

- Be very careful to note the units when reading numbers on an MSDS.
If you ever perform a calculation of any sort, always remember to write
the units next to each number in your calculation and make sure that they
cancel properly.