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Science

The Future of the Kilo: a Weighty Matter (theguardian.com) 207

A lump of metal in a building near Paris has long served as the global standard for the kilogram. That's about to change. From a report: Later this month, at the international General Conference on Weights and Measures, to be held in France, delegates are expected to vote to get rid of this single physical specimen and instead plump to use a fundamental measurement -- to be defined in terms of an electric current -- in order to define the mass of an object. The king of kilograms is about to be dethroned. And crucially much of the key work that has led to the toppling of the Paris kilogram has been carried out at the National Physical Laboratory where the late Bryan Kibble invented the basic concepts of the device that will replace that ingot in the Pavillon de Breteuil. The Kibble balance works by measuring the electric current that is required to produce an electromagnetic force equal to the gravitational force acting on a mass. A second stage allows the electromagnetic force to be determined in terms of a fundamental constant known as the Planck constant which will, in future, be used to define a kilogram. These machines will provide the standard for weighing objects -- and that means no more dusting of old lumps of alloy to ensure they stay pure and accurate.

[...] "One key reason for doing this work is to provide international security," says Robinson. "If the Pavillon de Breteuil burned down tomorrow and the kilogram in its vaults melted, we would have no reference left for the world's metric weights system. There would be chaos. The current definition of the kilogram is the weight of that cylinder in Paris, after all." [...] Another major motivation for the replacement of le grand K is the need to be able to carry out increasingly more and more precise measurements. "Pharmaceutical companies will soon be wanting to use ingredients that will have to be measured in terms of a few millionths or even billionths of a gram," says Prior. "We need to be prepared to weigh substances with that kind of accuracy."
Suggested reading: A thread on Twitter which discusses SI units and the redefinition of the kilogram.
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The Future of the Kilo: a Weighty Matter

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  • by Anonymous Coward on Tuesday November 06, 2018 @03:27PM (#57602096)

    If the Pavillon de Breteuil burned down tomorrow and the kilogram in its vaults melted, we would have no reference left for the world's metric weights system. There would be chaos.

    That would absolutely be inconvenient, because it is the master reference.

    However, other reference kilograms exist, for example, the US National Institute of Standards and Technology has a kilogram and a meter. These secondary references are sometimes used to compare against the primary reference kilogram to ascertain drift.

    It would be an annoyance to lose the master, but not a disaster.

    Anyway it will soon be redefined in terms of nonphysical objects so the window of problem is small.

    • by sjames ( 1099 )

      Unfortunately, the reference kilograms and the master no longer agree.

      • Re: (Score:2, Funny)

        by Anonymous Coward

        The US reference is now only about 0.45 of the master. The liter is also slightly smaller.

    • If the Pavillon de Breteuil burned down tomorrow and the kilogram in its vaults melted, we would have no reference left for the world's metric weights system. There would be chaos.

      ... It would be an annoyance to lose the master, but not a disaster.

      Remember, they're French. :-)

    • by johannesg ( 664142 ) on Tuesday November 06, 2018 @04:47PM (#57602728)

      the US National Institute of Standards and Technology has a kilogram and a meter

      Well, isn't it about time to start using them then?

    • Re: (Score:2, Insightful)

      They have a meter? What does it measure? Does it measure the length of a metre?

  • I assumed that it would be an electric scale + gravity measurement and not a balance that would ultimately determine the Kilogram.

    • I assumed that it would be an electric scale + gravity measurement and not a balance that would ultimately determine the Kilogram.

      The kilogram is a unit of mass, not a unit of weight. Mass is constant regardless of gravity (same number of molecules on earth as on the moon or on Jupiter), so although every day "close enough" measurements do measure against gravity to ensure you're getting a kilo of avocados at the grocery store, doing so as a part of defining a measurement of mass defeats half the purpose.

      A balance allows the ability to ensure the amount of molecules on the left has the same mass as the right side; a kilo weight on the

      • by AvitarX ( 172628 )

        Further reading leads me to believe a "Kibble Balance" is what I have in the past read as being described as an electric scale.

        The Kibble Balance looks to be essentially a very precise scale plus gravimeter, which is what I thought would succeed in being the first practical and precise enough option.

  • With a laser functioning as "optical tweezers" one can isolate single subatomic particles (electron, proton, well-characterized ions ref: https://journals.aps.org/rmp/a... [aps.org] ) set the standard kilogram to the appropriate number of one of those and bid all your metal alloys under bell-jars bye-bye. That is, define the kilogram to be something like 1e30 electron masses or 6e26 proton masses. whichever is more convenient.
    • That was my thought - maybe the chemists wishing to measure billionths of a kg should be counting atoms/molecules instead. if we can all agree that pi is 3 then surely we can come together to agree on Avagadros number.
    • With a laser functioning as "optical tweezers" one can isolate single subatomic particles (electron, proton, well-characterized ions ref: https://journals.aps.org/rmp/a... [aps.org] ) set the standard kilogram to the appropriate number of one of those and bid all your metal alloys under bell-jars bye-bye. That is, define the kilogram to be something like 1e30 electron masses or 6e26 proton masses. whichever is more convenient.

      This approach was considered -- there were a lot of attempts to make a reasonably large lump of silicon pure enough and with a perfect enough crystal lattice that the number of atoms in it could be counted to sufficient accuracy, whereupon the mass of one atom of (a specific isotope of) silicon would become the reference. The Kibble balance (which ties the kilogram to Planck's constant and so to the energy of photons of specific wavelengths) got to the required accuracy (required so that the mass of the ki

  • by the_skywise ( 189793 ) on Tuesday November 06, 2018 @03:52PM (#57602306)
    "Somebody has stolen the kilogram ingot - the world is about to be thrown into chaos!"
    "Never fear Prime Minister, I, Inspector Clouseau am on the case and will find this horrid thief who has stolen this kilogram of nougat!"
    "Ingot"
    "Zat is what I said!"
    • by Kjella ( 173770 )

      And the villains should be some "big is beautiful" anachists who's stolen it to pad the reference and redefine them as normal weight. Because that's totally how it works and it'd have instant effect on scales worldwide. And nurses would be oblivious too so skinny people start getting fattened up for severe undernourishment with intravenous HCFS and a prescribed junk food diet. The plot is actually so silly that if you just went all in it might make a good comedy.

  • OK, I get it, that some drug gets administered in microgram or perhaps even nanogram quantities.

    But does a "kee" of that drug need to be measured to one part in 10^9? You could take that quantity of a drug, "cut" it in two, and keep repeat that process 29 more times to get, say, diluted drug doses containing a nanogram of the drug to 7 percent precision?

    How precise do you need to administer a nanogram of active ingredient? Certainly not to 9 sig figs, so do you really need to measure out a kilogram t

    • by methano ( 519830 )
      Mod this one up! The pharmaceutical industry don't need this kind of accuracy. Why do we always go to the pharmaceutical industry to try to justify everything? Every Nobel prize is awarded to someone for something that could one day be useful for making better pharmaceuticals. I was kind of hoping the old weights and measures guys wouldn't fall into the same trap.

      Officer: Sir, you were going 100 mph in a 35 mph zone.

      Me: Officer, I was trying something that one day might help us develop better pharmace
  • by ffkom ( 3519199 ) on Tuesday November 06, 2018 @04:08PM (#57602432)
    I understand that some journalists from some backward countries used to "pounds" (that are not even well defined enough for precise mass measurements) are confused with words they don't understand, but "The Future of the Kilo" is unspectacular: It continues to be a prefix meaning a factor of exactly 1000. No changes or re-definition planned.
    • by ceoyoyo ( 59147 )

      The American pound is quite precisely defined. It's exactly 0.45359237 kg.

    • Oddly enough, the kilogram is considered the base unit of mass -- not the gram. It's the only such metric unit. There's a standard kilogram, there is no standard gram.

      • ...but isn't pretty much everything else already defined in terms of physical phenomena? E.g. 1 second is defined to be exactly 9 192 631 770 cycles of a Caesium atomic clock, 1 metre is equal to 1 650 763.73 wavelengths of the orange-red emission line in the electromagnetic spectrum of the krypton-86 atom in a vacuum (disclosure: copypasta from Wikipedia!) Sounds like the Kilogram is the missing link that's still based on an artefact (maybe they'll change the base to "gram" at the same time).
    • by swilver ( 617741 )

      This is slashdot, kilo changes to 1024 when you add "byte" behind it.

  • by Holi ( 250190 ) on Tuesday November 06, 2018 @04:40PM (#57602674)
    What about the researchers at the National Institute for Metrology Research, Italy, and the Australian Nuclear Science and Technology Organisation who are working on the silicon-28 sphere to redefine the kilogram in terms of the Planck constant by determining Avogadro’s constant?


    Would you like to know more? [chemistryworld.com]
    • What about the researchers at the National Institute for Metrology Research, Italy, and the Australian Nuclear Science and Technology Organisation who are working on the silicon-28 sphere to redefine the kilogram in terms of the Planck constant by determining Avogadro’s constant?

      The Kibble balance folks got there first.

    • That is part of the question which will be addressed by this conference (amongst others). The decision that the "standard mass" is inadequate for current and predicted uses has already been taken. The remaining questions are
      Firstly - is the "Watt balance" approach currently better than the "standard mass"; if so by how much, and how long on current trends is it likely to remain good enough?
      Secondly - is the "atom count" approach currently better than the "standard mass"; if so by how much, and how long o
    • Redefining the Kilogram requires everyone to agree on the value of Planks constant, using different methods. The silicon sphere does help for this, but it's still a bit too hard to reproduce.
  • by UnknownSoldier ( 67820 ) on Tuesday November 06, 2018 @04:41PM (#57602684)

    You keep using this fundamental units, it doesn't mean what you think it means.

    The SI system is a complete clusterfuck of "fundamental units":

    * Amp depends on the definition of kg
    * candela depends on the definition of kg
    * Kelvin depends on the definition of kg
    * Mole depends on the definition of kg

    These units should be ORTHOGONAL; not dependent on one another.

    • * candela depends on the definition of kg

      Does it? How?

      All of the other units are currently being considered for redefinition.

      • by UnknownSoldier ( 67820 ) on Tuesday November 06, 2018 @05:47PM (#57603144)

        > How?

        Too lazy to do dimensional analysis?
        *sigh*

        candela [wikipedia.org] is a source that emits monochromatic radiation of frequency 540e12 hertz and that has a radiant intensity in that direction of 1/683 watt per steradian.

        1 Watt [wikipedia.org] = 1 joule per second,

        1 Joule [wikipedia.org] = 1 Newton meter.

        1 Newton [wikipedia.org] = 1 kg * m/s^2

        QED.

        So, yeah, candela is a derived unit, not a fundamental unit.

      • by tlhIngan ( 30335 )

        * candela depends on the definition of kg

        Does it? How?

        Yes. A candela is defined in terms of lumens per Watt.

        A Watt is 1 J/s (Joule/second), or 1 (N-m)/s, or 1 (kg-m^2)/(s^2) or 1 Volt-Amp.

        It's really the fact that these units can be defined in terms of Watts that causes them all to be dependent on the kilogram.

        Incidentally,l the imperial system is locked to the metric system as well. An inch is, by definition, exactly 2.54cm (25.4mm). Similarly, there are exact conversions for mass and time.

        Length, Mass and

    • by Harinezumi ( 603874 ) on Tuesday November 06, 2018 @06:07PM (#57603232)
      If the quantity being defined can be expressed as a function of lower level fundamental units, why shouldn't it be expressed as such? Why introduce new axioms to express concepts that can be derived as theorems?
    • by bidule ( 173941 )

      * Kelvin depends on the definition of kg

      How is the triple point of water affected by mass?

      These units should be ORTHOGONAL; not dependent on one another.

      But that would mean we'd have 2.54 Amp per kilogram, how is that useful?

    • You might notice they don't all depend on each other, they are all defined in terms of the kilogram. That means you can know exactly how much a liter of water weighs. Further, that density of water doesn't change as the accuracy of our measurements improves.

    • Not a "clusterfuck" at all, useful for over a century and designed the way it is for good reason.

      What is a clusterfuck is amount of kids like you whining thinking you have some special insight.

    • No, they should not be orthogonal, because then we'd have a mess of transformational constants everywhere when doing simple calculations.

      SI is set up to so that you can easily make calculations directly on the units. No need for constants everywhere. This is the entire point of SI; that every unit is normalized against the other make calculations of many things trivial.

      Besides, it would not make sense at all to decouple units from each other. What would be gained from that?

    • by Nicopa ( 87617 )

      That's absurd. Defining fundamental units is difficult, problematic (as shown by all the work needed to replace the kilogram definition). Instead, is much more reasonable to have a system of interconnected units.

    • You keep using this fundamental units, it doesn't mean what you think it means.

      The SI system is a complete clusterfuck of "fundamental units":

      * Amp depends on the definition of kg * candela depends on the definition of kg * Kelvin depends on the definition of kg * Mole depends on the definition of kg

      These units should be ORTHOGONAL; not dependent on one another.

      yes, except you can't because, you know, physics?

  • The metric weight/mass system is based on a house of cards? I thought it was infallible.
  • by Anonymous Coward

    > If the Pavillon de Breteuil burned down tomorrow and the kilogram in its vaults melted, we would have no reference left for the world's metric weights system. There would be chaos.

    Bullshit. There are 6 master copies and over 200 certified copies of the kilogram etalon, each country in the UN received at least one, some more (e.g. Hungary has the #16 copy). Their minute deviations from "Le Grande Kilo" are well known and marked down. (Being physical copies they cannot be perfect). In case of LGK loss, t

  • Dammit, I just bought a new jar of kilogram polish.

    https://www.design-engineering... [design-engineering.com]

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