Not quite the sixth place of decimals

There are surprises in store

Image by (Joenomias) Menno de Jong from Pixabay

“The more important fundamental laws and facts of physical science have all been discovered, and these are now so firmly established that the possibility of their ever being supplanted in consequence of new discoveries is exceedingly remote… Our future discoveries must be looked for in the sixth place of decimals.”

Albert Michelson, Light Waves and Their Uses (1903), 23-4. 1

It was probably a shame that Michelson, first American winner of the Nobel Prize, came up with this quote, since it was his careful experiments on the way the speed of light never varied that provided the initial information behind Einstein’s 1904 theory of relativity.2.

It was a further shame that he wrote in 1903, just at the edge of quarter -century of discovery and theory that would turn physics upside down – the most exciting twenty-five years physics has ever known. Physicists since (arguably) have just been adding footnotes

What do we learn from this? Arguably, beware certainty in scientists. Think of this. Over here (I won’t draw it but you can imagine it) is the totality of reality. Over here (I won’t draw it either) is Science, a tool for exploring this reality. This is all very fine, except for the problem that since we do not know what the totality of reality is, we have no way of judging how good our tool is. It might be, for example, like a torch that only lights up the shiny things in a vast cave. Or it might be like an optical telescope, blind to X-ray sources that light up the sky. Or it might be like a child’s understanding, or like a fly’s, relying (in the case of the child) in a badly incomplete model or (in the case of a fly) on a deep cognitive lack.

Scientists generally, in my observation, are not good at looking at the acts of faith that underlie their discipline. What part does prejudice play? Or confirmation bias? How limited is our ability to perceive? How observable is the Universe? Science proceeds on assumptions that the Universe is generally observable, that human failings are ironed out by the need to replicate results, and, more broadly that it ‘works’. By which they/we mean: ‘when we shine a light into the cave, we can see shiny things.’

We don’t know what we don’t know. We don’t know if we can know what we don’t know. And we don’t know, if we can know what we don’t know, how we will know it.

Apart from that, everything is absolutely fine.

  1. I came across this note in this blog from the Faraday Institute
  2. It has also been pointed out the invariance of the speed of light can be deduced directly from Maxwell’s equations, if you’re smart enough. (I’m not.)

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