Naturally. Please inform bsfeechannel of this. He thinks the speed of light is based on the meter.
I don't mind that your posts be rife with fallacies, misconceptions and sheer ignorance. But when you attribute to me things that I didn't say you are establishing a dangerous precedent. And that's the second time you do this.
But since I am still under the influence of the metric inebriation I've had recently, I'll try to educate you into the more advanced concepts of metrology which lacks in general for those who resist metrication (and that's precisely why they do it).
Decades after Laplace, Legendre, Lagrange, Lavoisier and other luminaries proposed and made the brilliant metric system happen, which was enthusiastically adopted by the nations who managed to see that it represented the future, giants of science such as James Clerk Maxwell and Max Planck considered using fundamental constants of physics and properties of the subatomic world to define its units. The reason being they are much more stable than the previous standards based on macroscopic prototypes and properties of the earth.
In 1960 the meter was defined in terms of the wavelength of krypton-86 radiation (so much for the rod). In 1967, the second was defined in terms of the frequency of a specific radiation emitted by the caesium-133 atom. You might have seen several threads on the forum with members discussing about their caesium (or cesium) frequency standard units. You can buy them for cheap off ebay, apparently.
Now prepare your imperial head for this important explanation because, for someone who uses one unit for distances (mile), another for altitudes (foot), yet another for screws (inch), a fourth one for football fields (yards) and invented a nonsense fifth one for machining (thou) because the ancient Romans didn't think of that, this may be a bit difficult to grasp.
Since the speed of light is constant all over the universe, if you DEFINE an arbitrary value for it in meters per second, let's say 299792458 m/s in vacuum, then you can define the meter in terms of that constant and the second. And that's what happened in 1983, replacing the old standard based on the krypton-86.
So, the meter is now exactly the length of the path traveled by light in a vacuum in 1/299,792,458 of a second, also known as 3.335640952 ns. Any entry-level cheap-ass oscilloscope these days is capable of distinguishing pulses 3 ns apart, of course with a very limited precision, but this goes to show that with relatively modest means you can reproduce the exact same standard anywhere you want. The meter standard is right in front of your nose.
And in fact this happens every day when people use laser distance meters. It shoots a laser pulse and measures, against a calibrated time base, the time it takes for the reflected pulse to come back. So it is not measuring distance, it is measuring time. Then it converts this time, using the speed of light as a factor, to meters, to cubits, or to any of your laughable (for 2020) units of your pitiful system of measures. You can find those laser distance meters from $12.
So you need no unit of length, not even the meter. We already do that for astronomical distances, we use the light-year: time multiplied by the speed of light. We could say, for instance, that we saw a 20 light-ns high (6 m) house or that we bought a 33 light-ps (10mm) drill bit, etc. But we don't because, if there still are people in the world that can't understand that using just one unit of length is enough for any task, how difficult it would be for them to understand that we need none!
As soon as Einstein taught us that time and space are related by the speed of light, the metric system absorbed that achievement, while the imperial system lagged behind counting feet and paces. This shows how the metric system is miles, oops, kilometers ahead of those who insist in using archaic solutions.
Imperial? It belongs to oblivion. Or at best in a museum.
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