Difference between revisions of "Talk:2073: Kilogram"

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(Notes about metric system round numbers.)
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:I feel like we're starting to compare angstroms & millitrumps, here. [[User:ProphetZarquon|ProphetZarquon]] ([[User talk:ProphetZarquon|talk]]) 08:36, 17 November 2018 (UTC)
 
:I feel like we're starting to compare angstroms & millitrumps, here. [[User:ProphetZarquon|ProphetZarquon]] ([[User talk:ProphetZarquon|talk]]) 08:36, 17 November 2018 (UTC)
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::I don't think we need to bring politics in here. [[User:N0lqu|-boB]] ([[User talk:N0lqu|talk]]) 15:16, 19 November 2018 (UTC)
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'''Be very careful'''
 
'''Be very careful'''

Revision as of 15:16, 19 November 2018


I didn't know that weights and currencies could be converted 1:1, that's cool! Fabian42 (talk) 16:37, 16 November 2018 (UTC)

I wish they had redefined the kilogram a little bit. It would have been neat if 1 kg was exactly the weight of 1 dm^3 (1 litre) of water under one atmosphere of pressure. Right now it's soooo close. It's a good enough estimate for simple maths, but whenever you tell people that a litre of water weighs one kilogram the pedants comes out of the woodworks... Kapten-N (talk) 16:50, 16 November 2018 (UTC)

You'll get pedants whenever you refer to a kilogram as weight; it's a mass. The difference is that stuff weighs less on the Moon - or on tall mountains - although the mass is the same. I think the article as I just read it gets away with this. And, sure, what is the standard kilogram but a weight, that you take and weigh... [email protected] 162.158.91.59 23:57, 16 November 2018 (UTC)
It used to be a mass. Now it's a ratio of the local gravitational strength versus the efficiency of an EM field. Kibble scales require EM shielding & an environment of precisely 1g, in order to be accurate. Since gravity isn't equal everywhere, our measurements of kilograms will now vary accordingly. ProphetZarquon (talk) 08:36, 17 November 2018 (UTC)
No, it doesn't require an environment of precisely 1g, it relies on the fact that the effect of local gravity is well understood, can be measured precisely, and compensated for. It's a fundamental aspect of the Kibble balance and you can rest assured that it hasn't been overlooked by the physicists designing it! 162.158.134.34 16:38, 17 November 2018 (UTC)

Up until 1964 a litre (and therefore actually the metre too) used to be defined as the volume that water with mass 1kg takes. But this is not good for exact measurements not only because you need exactly reproducable temperature, pressure (not so problematic, because you can measure them and then calculate the divergence) and gravity (not so easy to measure, because you need an exact mass and exact masses are impossible to keep the same), but also because you need pure water free of any polutions of other stuff (hard and expensive) and even free of tiny amounts of isotopes which are deuterium and tritium (even way more expensive). Because the water that was used then was never close to pure the actual weight of water nowadays is 0.99997kg at 4°C and 1.013bar and I don't know which value for g. There is also another definition which I like, but is hard to measure in real life scenarios: E=mc². A kilogramm should be 1/c² of the mass which anything becomes heavier that you accelerate by the energy of one Joule. --162.158.90.150 17:11, 16 November 2018 (UTC)

But how do you define/measure a Joule then? Fabian42 (talk) 18:19, 16 November 2018 (UTC)
No, until 1964, meter and litre were totally independent, a meter has never been defined directly or indirectly in relation to a mass of water. It is only since 1964 that the liter is defined as a cubic decimeter.162.158.90.36 18:36, 16 November 2018 (UTC)
Also, in E=mc², E is the energy at rest (for a stationary object of mass m), so your definition using the acceleration makes no sense.162.158.88.254 18:47, 16 November 2018 (UTC)

Actually, for the new definition of the kilo using the Kibble balance you need to measure the gravity... 162.158.134.16 17:34, 16 November 2018 (UTC)


Welp, looks like 1 kg, a.k.a. 1 lb, a.k.a 2.2 lb, is now officially defined to have zero mass. 172.69.50.28 16:56, 16 November 2018 (UTC)

…or infinite. Fabian42 (talk) 16:59, 16 November 2018 (UTC)
What I understand: the joke is not (only) about 1 (old) kg = 1 (old) lb, but (also) about 1 new kg = 1 old lb... or 1 new lb = 1 old kg :^) Or about a ring of positive characteristic --188.114.102.94 17:08, 16 November 2018 (UTC)
I'm so glad other people see the problem with this supposed "official" definition. We've gone from a unit of measure problematically prone to contamination error, to a unit of measure that changes depending on where you measure it! ProphetZarquon (talk) 08:36, 17 November 2018 (UTC)

what about the ambiguity of the pound? would they reference an Avoirdupois bound or a Troy lb? --wonderkatn 172.69.50.16 (talk) (please sign your comments with ~~~~)

I don't believe the Imperial system is "no longer used". Gills have been retired, but yards and even chains are still in use, not to mention the Imperial lb pint. Yngvadottir (talk) 18:49, 16 November 2018 (UTC)

The imperial system has some good things about it. Feet are divisible by 12, and Fahrenheit is much nicer for human temperatures. Linker (talk) 18:55, 16 November 2018 (UTC)
Yeah, coz it's so easier to divide by 12 than to divide by 10! 162.158.89.61 (talk) (please sign your comments with ~~~~)
No it is easier to divide by 2, 3, 4, and 6, and yes, I can divide the number of feet by 10 easily in my head. SDSpivey (talk) 19:15, 16 November 2018 (UTC)
The idea is that with twelve parts, you can have 1/2, 1/3, 1/4, 1/6, and 1/12 all be integer number of parts. This is why these types of systems developed in the past, and why so many systems also had multiples of 60 (you can do the math here.). They were easy to divide by merchants without access to any sort of calculation method. The base-10 system is great if you're only ever dealing with halves or tenths. But if you want a quarter or a third of something, you have to split the base units. It's no longer necessary in modern life, but it had a real advantage in ancient times. Cgrimes85 (talk) 19:18, 16 November 2018 (UTC)
No longer necessary in modern life... Which is why we should all switch to base-10 units of time! ProphetZarquon (talk) 08:36, 17 November 2018 (UTC)
Or we could change everything else to base 12... (I can dream, can't I?) Linker (talk) 18:45, 17 November 2018 (UTC)

Ok, I'm going to point out something. What's a meter? 1000 milimeters. What's a milimeter? .....skipping the questions all the way to the end, the answer is "the wavelength of the color orange". Or at least that's what I read. So my question is: why orange? What's so special about orange? What as a species or as a solar system or as universe does the color orange have to do with anything? 172.68.90.10 21:50, 16 November 2018 (UTC) SiliconWolf

"The metre was originally defined in 1793 as one ten-millionth of the distance from the equator to the North Pole." That's why orange. Think of those lines from equator to pole... and how an orange is divided in segments beneath the peel. This is why the "Terry's Chocolate Orange" is so called, because it resembles the fruit orange. [email protected] 162.158.91.59 23:51, 16 November 2018 (UTC)
The wavelength definition of the meter is not in use anymore either. Since 1983, the meter is defined as the distance the light (any light) travel in the vacuum in 1/299792458 seconds. Of course, all units have a part of arbitrary, and the value it is used to calculate the meter (the orange color, the 1/299792458 seconds...) are basically chosen because they are close to and more precise than the previous definition that existed, in order to not have to recalibrate things that don't need high precision. 103.22.200.210 08:03, 17 November 2018 (UTC)
I feel like we're starting to compare angstroms & millitrumps, here. ProphetZarquon (talk) 08:36, 17 November 2018 (UTC)
I don't think we need to bring politics in here. -boB (talk) 15:16, 19 November 2018 (UTC)


Be very careful

An announcement to a new definition of the kilogram is published wildly (I mean what I'm saying) today. Please do not present this issue as a final fact, I'm still missing an official statement -- it's just press hype. And there are two possible definitions taken account, not only the one from the US. The final decision right now looks like some of Randall's compromises. Just sayin... --Dgbrt (talk) 20:01, 16 November 2018 (UTC)

OK then, here's an after-the-vote November 16 web page from NIST, the National Institute of Standards and Technology, within the US Department of Commerce. It says it's a done deal. historic-vote-ties-kilogram-and-other-units-natural-constants. --JohnB 162.158.79.89 21:58, 16 November 2018 (UTC)
Thanks, but my German sources still preset something like counting atoms Kilogram and MOL, counting atoms, just meaning I'm not sure what will be true in May 2019, do we know the truth??? And in fact it looks like Europeans are fighting against US scientists, or vice versa. This is far of a standard I would prefer. --Dgbrt (talk) 22:29, 16 November 2018 (UTC)
I'm extremely skeptical of the Kibble scale definition. It won't maintain constant mass at different locations. ProphetZarquon (talk) 08:36, 17 November 2018 (UTC)

It will be very funny when we find out one of those constants is not really constant ... sure, planck length is less likely to change than physical object, but it MIGHT. Like, maybe it gets longer the older the universe is ... -- Hkmaly (talk) 23:17, 16 November 2018 (UTC)

Since they're proposing to measure the gravitational force exerted on a unit of mass against the force exerted by an electromagnetic field (instead of comparing the downward force exerted on two masses), the new definition isn't a constant. For instance, on the moon such a scale would define 1kg as about 13.3lbs! The "new official definition" is a bad one. ProphetZarquon (talk) 08:36, 17 November 2018 (UTC)

You could not define the kilogram in terms of electric force when you defined the Amp in terms of the current that creates a given force. But by defining the amp in terms of numbers of elementary charges per second and setting Avogadro and other constants by fiat, you break the circle. 162.158.38.190 23:54, 16 November 2018 (UTC)

In the Netherlands, we use the metric system. We also use the term "pond" to mean pound. However, we use metric pounds. Those are 0.500 kilogram, so it is actually easy to use.

US weight and length units definition is strictly based on metric system: "Standards for the exact length of an inch have varied in the past, but since the adoption of the international yard during the 1950s and 1960s it has been based on the metric system and defined as exactly 2.54 cm."{https://en.wikipedia.org/wiki/Inch} "the most common today is the international avoirdupois pound, which is legally defined as exactly 0.45359237 kilograms" {https://en.wikipedia.org/wiki/Pound_(mass)} Therefore the conversion proposed sounds recursive. Also, https://www.youtube.com/watch?v=SmSJXC6_qQ8 172.68.51.178 13:49, 17 November 2018 (UTC)

While it would be nice if the meter were equal to a yard, it would certainly be better if the meter were defined as 5.28 feet, so that kilometers and miles are the same.Mathmannix (talk) 13:54, 17 November 2018 (UTC)

I'm guessing that they'll get around the varying g problem by defining the kg in terms of some standard acceleration equal to 9.81 m/s^2. Then when measuring an object's mass you would account for the difference between the local value of g and the standard one. This isnt a problem because we can measure gravitational acceleration quite precisely and it depends only on the units of length and time. 108.162.216.190Carl108.162.216.190

The varying g problem is already compensated for in the way you describe (otherwise the Kibble balance wouldn't be useful), ProphetZarquon is just spreading misinformation. Arcorann (talk) 07:55, 18 November 2018 (UTC)

In the What If "A Mole of Moles," Randall states in his estimates, "Anything I can throw weighs one pound. One pound is one kilogram." [1]

Let's see... All the things this proposed change would mess up. (even assuming that Black Hat meant 1 Kilogram = 1 mass-pound) .... The newton just changed, but only in relation to the KG, so I guess the force required to lift 1 KG in 1 G is still technically about 10 newtons, only it's a DIFFERENT newton now... atmospheric pressure is no longer ~= to 100 kilopascals, because the pascal just changed. 1 liter of water is no longer ~= to 1 KG. Metric and imperial Tons are no longer anywhere close to each other. 1 mole of carbon-12 no longer masses 12 grams. There must be other ways the common rules-of-thumb of the metric system just got broken, any suggestions? 108.162.216.82 19:44, 18 November 2018 (UTC)