Category Archives: Metric Education

For Shoes, It’s The Metric 1960s

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By The Metric Maven

Bulldog Edition

In response to the We The People Petition to make the metric system the exclusive system of measurement in the US, the now former director of NIST, David Gallagher indicated that it is his policy on measurement to just “do your own thing.”  Standards are just so restrictive for the (former) director of NIST. One of the catch phrases of 1960s America was to “do your own thing.”  While in some contexts this may be admirable, when it comes to creating a consistent measuring of the world, it is generally not.

When I wrote my essay Brannock and Barleycorns, I thought it would be the last essay I would ever write on shoe size, after all there is a metric international standard called mondopoint, and there it is—for all to use.  Unless of course you live in the US and feel constrained and oppressed by logical “establishment standards.” Just as a quick review, mondopoint is a standard which uses the length of a human foot in millimeters as a  size designation.  According to Wikipedia:

The International Standard is ISO 9407:1991, “Shoe sizes—Mondopoint system of sizing and marking”,[2] which recommends a shoe-size system known as Mondopoint.

It is based on the mean foot length and width for which the shoe is suitable, measured in millimetres. A shoe size of 280/110 indicates a mean foot length of 280 millimetres (11 in) and width of 110 millimetres (4.3 in).

Because Mondopoint also takes the foot width into account, it allows for better fitting than most other systems. It is, therefore, used by NATO and other military services. Mondopoint is also used for ski boots.

I’ve never snow skied more than once, so I don’t normally look into the size of ski boots. One day I was corresponding with Peter Goodyear in Australia by email and mentioned that I had heard we use mondopoint for ski boots, so perhaps there is some hope in the next century or two to get this sizing of shoes introduced more generally. Here is what you find if you look at an Australian website for mondopoint:

There it is, nice integer shoe size numbers in millimeters as mondopoint was designed to produce, and as nature intended. All was well with the world until I began looking at US websites for ski boots. The first one has this:

Yes, the US “do your own thing,” measurement spirit invaded the mondopoint standard. The international standard, which is in millimeters, had been unilaterally changed to centimeters by US ski boot vendors. We must have numbers which are like inches, (i.e. pseudo-inches), and insert decimal points or we just feel too constrained by the unfamiliar. I’m sure NIST would approve of this, if they aren’t concerned their act of approval of anything metric might be too constraining and make people feel uptight. When wearing ski boots one doesn’t want to have a bad trip.

One US website feels overly-constrained to even be bothered with units. They boldly use centimeters without bothering to tell us they are now two steps away from the mondopoint standard:

One website even has a history of mondopoint for us to read. It is most enlightening:

So, mondopoint was developed by ski boot manufacturers?—as a universal measurement for ski boots and is designated in centimeters?  That’s not what the international standard indicates, as I understand it. Perhaps this is a Hollywood version of metric history. You know, like U-571, where it was the British that captured an enigma machine in WWII in reality, but we’ll just change it so that  the US did it instead for the movie version. Who would know the difference? Thank heavens the UK has become mostly metric. I’m sure I can trust them to get history—what?–wait—what’s this?:

No! not centimeters again! e tu UK? Then I run across a UK online ski forum with this question: “Can a Mondo Point 28 be marked as 328 mm?” Well, talk about a shoe on the wrong foot.

Why is it the only people who take metric seriously, and also speak English, appear to be the Australians. Is it because they are so far away from our bad influence? I believe much of the problem is that in the US, millimeter-only metric rulers are almost non-existent, and the desire for a pseudo-inch is so attractive, that we cannot think outside the centimeter. Without the extraneous comfort of an unnecessary decimal point or fraction to contemplate, we break out in a sweat considering the possibility that actual change might be encountered. Perhaps the biggest problem in the US when it concerns measurement, might be that we simply don’t view innumeracy as a serious personal deficiency, and perversely seem to celebrate this inability to understand magnitudes. The confusion of a factor of ten can really mess up a dimension. Perhaps this explains the origin of platform shoes?

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.

The Story of Measurement

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The Story of Measurement by Andrew Robinson

By The Metric Maven

The book The Story of Measurement by Andrew Robinson is a magnificent work of graphic arts. Page after page of eye catching color graphics assault the senses. The illustrations are just candy for the eyes. It is a truly magnificent “coffee table book.”  In the introduction the author impresses upon the reader how prevalent measurement is in our everyday lives:

A few minutes’ reflection reminds us that measurement pervades our everyday lives. In no particular order, we constantly encounter: clocks, calendars, rulers, cloth sizes, floor areas, cooking recipes, sell-by-dates, alcohol content, match scores, musical notation, map scales, internet protocols, word counts, memory chips, bank accounts, financial indexes, radio frequencies, calculators, speedometers, spring balances, electricity meters, cameras, thermometers, rainfall gauges, barometers, medical examinations, drug prescriptions, body mass indexes, educational tests, opinion polls, focus groups, questionnaires, consumer surveys, tax returns, censuses and many other forms of measurement — all of which serve to reduce the world to numbers and statistics.” (Page 7)

One can imagine my anticipation when I read that paragraph. One could only believe a good read was to follow. What would he have to say about the metric system?  We don’t have to wait long, on page 13 he states: “But the acute economic difficulties experienced with the new [metric] system persuaded Napoleon to rescind the original legislation in 1812.” Author Andrew Robinson indicates that only scientists were upset at this reversal. This statement seemed at odds with what I understood to have occurred historically in France. I made a mental note to look into it.

Robinson then indicates that Thomas Young (1773-1829) did not support “the legislative enactment of uniform weights and measures in Britain.” Young had written an article for the Encyclopaedia Britannica in 1823 and the author quotes from it. Young sees France’s experiment with creating a single measure as a failure and argued that:

…the British government should ‘endeavor to facilitate both the attainment of correct and uniform standards of legal existing measures of all kinds, and the ready understanding of all the provincial and local terms applied to measures, either regular or irregular, by the multiplication of glossaries and tables for the correct definition and of such terms.’

The more measurement units, the merrier!? Then it hit me. Thomas Young. I’d tried to read the book The Last Man Who Knew Everything two times and found it completely unable to engage my enthusiasm. It is about the life of Thomas Young. I went to my bookshelf and located it. The book was written by, you guessed it, Andrew Robinson. This was not a good portent, but I tried to be optimistic. Then I read this:

In the telling words of the economic historian Witold Kula in Measures and Men: `The reform that standardized weights and measures, which had been so ardently desired for centuries and so widely demanded by the common people on the eve of the Revolution, extolled by so many of the truest revolutionaries and conceived by the finest scientific minds of the day, had, ultimately, to be imposed upon the people.’

Economic historian? Does it disturb the economic historian that currencies are imposed on the public? Should we therefore we should go back to barter? Robinson introduces an economic historian as an indirect backdoor way of introducing an old canard, market Darwinism, as an argument against the metric system without actually straightforwardly stating it. Later, on page 81, Robinson goes further:

Even scientists sometimes take refuge in non-standard units, more ‘human’ than, say, gigametres (109 m) and nanometres (10-9 m). Astronomers like the ‘astronomical unit’ (AU), equaling the mean distance between Sun and Earth; from the Sun to Jupiter is 5.20 AU, a figure easier  to remember than the metric distance, 778 gigametres. Chemists are fond of the angstrom (Å), 0.1 nanometer, for measuring molecular distances; the radius of the chlorine molecule is about 1 (Å).

Oh the humanity!—of unfettered unit proliferation!? I recommend that Robinson read my essay Long Distance Voyager. There he will see evidence of the great utility the metric system has for describing astronomical distances. The angstrom is an exclusionary unit, which acts as a barrier to an integrated understanding of sizes at the nanometer level.

Along the way Robinson offers up this about the metric system:

Among the US public, Gallup polls showed that between 1971 and 1991, awareness of the metric system increased from 38 to 80 percent, but the proportion of those favoring its adoption fell from 50 to 26 percent. (page 31)

One should note that he uses the word awareness, which does not imply they understand the metric system. I’m more aware of Cricket after working with English and Indian engineers, but I can clearly claim I do not understand it and probably would be less inclined to favor playing it.

Robinson also has an incredible fetish for fractions and milliSaganistic prose (i.e. millions and millionths). On page 84 he discusses the 19th century mystery of how and why pollen grains vibrated in water, which is called Brownian motion:

From theory, Einstein calculated that particles in water at 17 degrees C with a diameter of a thousandth of a millimetre — that is, 10,000 times bigger than atoms — should move a mean horizontal distance of 6 thousandths of a millimetre in one minute.

I’ll take a stab at editing this set of prose using metric prefixes:

From theory, Einstein calculated that one micrometer sized particles of pollen, in water at 17 degrees C, would move a mean horizontal distance of six micrometers in one minute, in response to being jostled by picometer sized atoms of water, which are 10 000 times smaller than the pollen particles.

Robinson made me pine for the excellent monograph Science & Music by Sir James Jeans when I read:

….and the amplitude [of a sound wave] dictates the sound pressure. At the threshold of hearing, the displacement is a mere millionth of a millionth of a metre (about one fifth of the radius of a hydrogen atom!).

Perhaps?:

“….and the [perceived] amplitude dictates the sound pressure. At the threshold of hearing, the displacement is a mere picometre (about one fifth of the radius of a hydrogen atom!).”

Robinson continues:

and the pressure difference between the peak and the trough of the wave is a two hundredth of a thousandth of a pascal (compare normal atmospheric pressure, which is about 100,000 Pa).

Possibly?:

and the pressure difference between the peak and the trough of the wave is 5 micropascals (compare normal atmospheric pressure, which is about 100  kilopascals or 20 000 000 000 times larger).

One would hope that’s enough zeros for histrionics’ sake!

An example of Robinson’s fetish for fractions is shown in his caption of a photograph which shows Physicist Richard Feynman (1918-1988) viewing a tiny electric motor. The motor was engineered in response to a famous technical challenge he made:

Perhaps 750 microwatts of power from a motor which is 4.25 micrometers in diameter? After all how many people own a horse these days?

In Robinson’s section on screws he only mentions Joseph Whitworth, and passes over metric screws completely. When discussing calorie counting he mentions kilojoules only once, essentially as a token conversion factor.

It is a strange book on the story of measurement which has so little of the metric system or its usage in it, but that is what The Story of Measurement is. Now and then, despite his sprinkling of unnecessary centimeters—ok—I’m of the opinion that all centimeters are unnecessary, he uses mm in a way with large decimals that comports with my understanding of accepted metric usage:

The zeros are separated with spaces by three. He uses millimeters. It gives an idea the value is getting smaller—a lot smaller. This is a nice table in a book which is dominated by large fractions and mixed usage. This table is fine, and might be the best presentation, but an alternative way he could have constructed the table might have been using picometers with the whole number rule:

1791  Quarter meridian of of Earth  +/-  60 000 000 pm
1889  Prototype bar                          +/-    2 000 000 pm
1960  Krypton Wavelength                +/-           7000 pm
1983  Speed of Light                         +/-             700 pm
Today Improved Laser                       +/-               20 pm

Unfortunately good examples of metric usage, like his table, are few and far between in this book. There even seems to be a ubiquitous underlying hostility to metric usage just barely below the surface of this narrative. Is there much else I can say that I like about The Story of Measurement? Uh…did I mention the graphics are visually attractive?

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.