Category Archives: Metric Reform

Elements of Bile

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Metric illustration from 1877. Note the capital K.

By The Metric Maven

When I first attended University, my English instructor became concerned about my competence with the language. She insisted that my writing was so riddled with problems that I must be tested for a learning disability. I sat for about eight hours of testing. The next week I returned to have my results analyzed. The woman looked at me with an almost relieved countenance and said “oh, your problem was easy to identify, you spell logically instead of correctly and generally use a single letter in place of redundant ones when spelling, you don’t see any rhyme or reason in why capitalization occurs so you only do it at the beginning of sentences, and  you see many grammatical rules as arbitrary and inconsistent, and so you do not follow them. We can fix this!”

I have done what I can to conform to the requirements of “standard” English over the years, but I have more regard for what appears to be rational usage than “proper” usage. Longtime readers know that I have a real problem with using a small k for kilo. The ordinary frequencies of radios waves are described as Hz (hertz), kHz (kilohertz), MHz (megahertz), GHz (gigahertz), THz (terahertz) and upward. All the metric prefixes for magnification in this series are capitalized—except for?—kilohertz. Longtime readers also know that I would do away with the prefix cluster around unity, and only use them for historical reference as atavistic prefixes. No more deca or hecto in the case of magnifying units. This would make the kilo prefix k, the only one which is not capitalized for the magnifying prefixes. I would then use capital K so that all the magnifying prefixes are consistent, and their capitalization would be a clue that they are magnifying prefixes. The frequencies I cited would then become KHz, MHz, GHz and THz. Distances would become Km, Mm, Gm and Tm. We would have Kg, Km and KL for kilogram, kilometer and kiloliter respectively.

Shinkansen (Osaka–Tokyo) Bullet Train Speedometer ~ 1964
Shinkasen (Osaka-Tokyo) Bullet Train Speedometer ~ 1964

Incidentally, I recently gave a lecture to a chemistry class at a local all girls high school and mentioned that small k was the accepted symbol for kilo, but I would make it a capital k. The teacher approached me after the lecture and indicated that it was her understanding that capital K is the recognized prefix for kilo. “Where did you get that idea?” I asked. She opened the chemistry textbook used for the class and in the first section it had all the metric prefixes listed, and to my amazement, the K for kilo was capitalized. I was dumfounded and stared for a moment in disbelief. It was clear to me that a capital K is so logical, that it had somehow made its way into a high school chemistry textbook. Recently I also saw a PBS documentary about a famous train crash in Japan. The documentary had historical footage from 1964 of Japan’s early bullet trains and for a moment the speedometer of a train was shown. It had Km/h with a capital k (or should it be capital K?). It was clear to me that many peoples minds automatically attempt to make the metric prefixes logically consistent, independent of “accepted usage.”

I’m sure there are plenty of reactionary minds which would object to a capital K for the metric prefix kilo on the basis that it would be confused with Kelvin. I’ve made it plain in  a previous blog that I believe the practice of naming units after scientists never should have occurred. There are also those who point out that the kilogram is a base unit (one must admit its an odd base unit that has a prefix.) and we must for some reason be reminded of this by using a lower case k—for mass and all other uses!–km, kL, kHz, and so on.  This assertion is nothing but a goldfish bowl filled with red herrings. Rational consistency in engineering and science takes precedence over “heritage.”—or as the English might say “heritage”.

In my usage, all the magnifying prefixes would be upper case, K, M, G, T, P, E, Z, Y and all the reducing prefixes would be lower case m, µ, n, p, f, a, z, y. This would produce an “element of style” which would be consistent with technical usage. All metric prefixes would differ by 1000, the upper case would magnify and the lower case would reduce the base unit. Could we all just agree on the gram as a “heritage virtual base unit?” This proposed usage would be a consistent expression that any grade school student could master in a day and use for the rest of their life. It would be a consistent rule for the literary expression of metric prefixes that one could count on, unlike “i before e except after c and in words like neighbor and weigh.” And weight of course.

Longtime readers have heard this all before, but what I’m proposing in this essay goes far beyond capitalizing K when using the kilo prefix. I have my own ideas about the capitalization of their accompanying words. I would capitalize Kilohertz, Kilogram, Kilometer and all the words which use a magnifying metric prefix. In general, if a word is describing a metric prefix-unit combination, and the prefix magnifies, then it should be capitalized, and if it reduces, then it should be lower case. For example Petagrams would be Pg, and mg would be milligrams. In astronomy Km would be Kilometers, Mm is Megameters, Gm is Gigameters and so on. All the names would be capitalized. If one is working with electronics, mm is millimeters, µm is micrometers, nm is nanometers and so on.

The only barrier between myself and this usage is the “keepers of style manuals.” They will complain about my use of KHz, but not object to  a sentence which states “the weight of a piano is many kilograms” which is a fundamentally flawed statement. If it were written “the weight of a piano is many Kilograms” I’m sure there would be guffaws and outbursts about the capital K. It would probably be lost on them that grams are mass and newtons are metric “weight” which is a much larger problem.

I’m going to institute this style practice in my blog, and fully expect there will be some wagging of bony fingers, and venting. My only defense will be to state that I have developed my own consistent style manual, which is named for what it might generate by its usage, The Elements of Bile.

If you liked this essay and wish to support the work of The Metric Maven, please visit his Patreon Page and contribute. Also purchase his books about the metric system:

The first book is titled: Our Crumbling Invisible Infrastructure. It is a succinct set of essays  that explain why the absence of the metric system in the US is detrimental to our personal heath and our economy. These essays are separately available for free on my website,  but the book has them all in one place in print. The book may be purchased from Amazon here.


The second book is titled The Dimensions of the Cosmos. It takes the metric prefixes from yotta to Yocto and uses each metric prefix to describe a metric world. The book has a considerable number of color images to compliment the prose. It has been receiving good reviews. I think would be a great reference for US science teachers. It has a considerable number of scientific factoids and anecdotes that I believe would be of considerable educational use. It is available from Amazon here.


The third book is called Death By A Thousand Cuts, A Secret History of the Metric System in The United States. This monograph explains how we have been unable to legally deal with weights and measures in the United States from George Washington, to our current day. This book is also available on Amazon here.

Eponymous Measurement Units and Planet George

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— NASA

By The Metric Maven

The first planet discovered using a telescope was Uranus. There have been many sophomoric jokes made at the expense of this planet’s name—but I would never argue that its name be changed.  The name Uranus was not in fact, the original name proposed for this celestial body. Its discoverer, William Herschel (1738-1822), named it George. The official Latin euphemism for this title was Georgium Sidus, or George’s Star for King George III. This might strike a contemporary person as the scientific equivalent of A Boy Named Sue.  A planet named after a person?—that’s all messed up. The names had been chosen, up to that point, in a manner which eschewed modern, or even real persons, by using the names of classical gods. George is immediately seen as not comporting with this nomenclature.

What strikes me is that the metric system also began this way by using names which were as decanted from humans as possible. The meter, the liter, the gram, and such were all words designed to be as neutral as possible. This began to fork when derived units appeared. Both the cgs and mks systems began to use the names of famous scientists for the names of derived units, but not always. The cgs system used erg (which derives from a Greek word meaning “work”). I like the name erg, it is derived from a word descriptive of what it is trying to represent, while SI adopted the name joule after the English physicist James Prescott Joule (1818-1889) who did pioneering work on energy.

In my view, naming a measurement unit after a person opened a Pandora’s box, much like allowing a newly discovered planet to be named George would have been in astronomy. Eponymous measurement units interjected a potential political, nationalistic and geocentric aspect to the metric system which in my view has not served it well. Clearly, the choices could easily become (and in my view have been) scientific popularity contests, where the idea of measurement unit names, which compactly describe units, was abandoned. In its place was the idea of further “honoring” persons, who are already immortalized in the history of engineering and science, by using the names of measurement units. This choice would immediately lead to political pressure, which could indirectly lead to unit proliferation. After all, we would want to include everyone—right? It becomes Celsius vs Fahrenheit vs Kelvin and the question of who “objectively” did more to further that unit’s development (or should it be the first who did work on it?).  Is it Gauss (cgs) or Tesla (SI)? that contributed the most to (electro)magnetism—I will keep to myself which of these two clearly did more in my view. I will however comment that people who appear of paramount importance to their contemporary history, when judged years later are sometimes no longer seen as towering, or even very important, when closely examined in hindsight. It would be best not to create eponymous measurement units in the first place.

One person I have in mind which exemplifies this is William Henry Preece (1834-1913). Preece rose through the ranks of industry with very little education, and had almost no theoretical insight into the nature of electricity. He saw electricity as similar to water flowing through a pipe. He would never master AC circuit theory, let alone have any understanding of Maxwell’s equations. Even when it was clear that his view of electricity was wrong, he steadfastly refused to budge. He dismissed theory with disdain. He also had all the political connections to make him a formidable adversary—independent of his meager knowledge.[1]

Preece reviled Oliver Heaviside (1850-1925) who was an amazing autodidact. Heaviside would recast Maxwell’s equations into the vector form which is used by engineers and scientists to this day. Heaviside coined the terms inductance, and impedance, admittance and conductance, permeability and reluctance. These are all used in modern electrical engineering. He invented transmission line theory. Despite Heaviside’s towering contributions to electrical engineering, it was Preece who had a unit named for him. A preece is 1013 ohm-meters. I’ve never actually seen this unit used, but he managed to get one named for him non-the-less. It is a perfect example of why measurement units should not be named after people.

Another issue is that a choice of words with the least number of syllables would probably be of utility. Why is it ok to take the name Volta and reduce it to volt, but not take Ampere and change it to amp?  (A professor once chastised a student in a class for this by asking if he worked at a garage?—the unit is an ampere!). Why doesn’t George Westinghouse get his own electrical unit?—too many syllables?

Recently I viewed a clip from a British game show which asked a panel “what is the metric unit for weight.” There was much fumbling, and the presenter had to finally tell them it was a newton. Get it?—Isaac Newton is English—and the British contestants didn’t know the measurement unit for weight was named after the great English scientist. That a measurement unit is coupled with a nationality is almost anthropomorphizing it. Until 1948 temperature could be centigrade, after that it became the eponymous Celsius. In another essay I point out I would have it reintroduced as milligrade. Taking the name of a measurement unit, which has some manner of neutrality, and then re-naming it after Celsius is a disservice to metrology, engineering and science.

One metric measurement unit name that appears to suffer from its lack of a descriptive name is the pascal. When a person in the US hears PSI its immediately translated to pounds per square inch. Every American thinks they know what that means. The very name seems to explain itself. 1000 PSI—wow!—that’s a lot! One PSI—not so much. Because we have not embraced the metric system, and better educated ourselves, most Americans think a kilogram is a force, and a pound could be a mass.  So if you tell them something has a pressure of 6895 Pascals—wow!—that sounds big!—but it’s 1 PSI or 6.895 kilopascals. A US citizen would be confused as as to where the kilograms had gone and how they had become kilopascals. When I recently explained to a technician working on pressure lines, which he was connecting to a “foreign” machine, that a pascal is a newton per square meter—there was an immediate recognition on his face. Should the pascal ever have been defined? Perhaps it could have been left as newtons/square meter?—NSM?  In the cgs system there is the gal for a unit of acceleration, but in SI it’s meters/second squared. The gal is said to be short for galileo, but should it ever have been named and defined? People can envision what a meter per second per second might be, and hiding it inside of an eponym disperses clarity. In the case of a unit like a volt, its base units are: m2·kg·s-3·A-1 which I believe very, very few people can visualize, and a name of some type makes sense. It’s too bad it’s an eponym.

There are frivolous units like the barn, which should long ago have been abandoned, but like the continued use of cgs in the US, people who are used to our polytheistic units see no problem just adding more ways to redundantly describe the world. (FYI cgs and SI are incompatible systems)

In 19th century attacks on the metric system, one will often see the complaint that the units have too many syllables. Most of the examples are cherry-picked, but I believe it should have been a consideration in naming metric units. In cgs the force unit is a dyne (single syllable) and in SI it is a newton (two-syllables). The descriptions should be as simple as possible and no simpler. The names of measurement units should not be based on “honoring” already celebrated scientists, nor uncelebrated ones. The angstrom is a good example of an eponymous unit which only kludges up the metric system and makes it less straightforward. Thankfully nanometers are commonly used these days to describe wavelengths of light. But will those who are from Sweden feel slighted?—and continue to use it in a patriotic protest?  Nanometer tells you directly in words what the value of the unit magnitude is in relation to its base, the Angstrom does not. It should have never been coined for a scientific unit.

I expect the probability is small that the metric unit naming issues I’ve related will ever be addressed by international standards committees. In fact it is likely far, far more remote than that of the US becoming a metric nation like Australia. But that does not mean I will not write about it, and implore that this not be done in the future. Spacecraft will continue to be launched. Continue to use spacecraft names to honor scientists—not measurement units. The first rule of getting out of holes is that when you’re stuck in one, you should first stop digging. Add no more eponymous units.

[1] Oliver Heaviside: Sage in Solitude Paul J. Nahin, IEEE Press 1988

If you liked this essay and wish to support the work of The Metric Maven, please visit his Patreon Page and contribute. Also purchase his books about the metric system:

The first book is titled: Our Crumbling Invisible Infrastructure. It is a succinct set of essays  that explain why the absence of the metric system in the US is detrimental to our personal heath and our economy. These essays are separately available for free on my website,  but the book has them all in one place in print. The book may be purchased from Amazon here.


The second book is titled The Dimensions of the Cosmos. It takes the metric prefixes from yotta to Yocto and uses each metric prefix to describe a metric world. The book has a considerable number of color images to compliment the prose. It has been receiving good reviews. I think would be a great reference for US science teachers. It has a considerable number of scientific factoids and anecdotes that I believe would be of considerable educational use. It is available from Amazon here.


The third book is called Death By A Thousand Cuts, A Secret History of the Metric System in The United States. This monograph explains how we have been unable to legally deal with weights and measures in the United States from George Washington, to our current day. This book is also available on Amazon here.