It uses the word "uncertain" in that definition. As such, your statement comes across to me as "Science is uncertain because it is uncertain."
Hence I am asking why. Why is it tentative?
Because we do not have all empirical facts. We will always have a small subset of all facts, so we keep theories tentative and open to falsification. The best science can do is to state that all evidence on hand is consistent with a theory.
I wasn't saying I think math & science treat assumptions differently. I was asking if you thought that. To be honest, I can't make much of this. I asked about mathematical assumptions, not equations.
Those are the same thing. Mathematical assumptions are the equations.
Further, I'm not sure I understand your usage of "dogmatic", because I find mathematicians to be quite the opposite.
So 2+2 could equal 4 or 5 or 6?
So, let me ask, is science dependent upon mathematics?
No, science is dependent on evidence. Science uses math to build models, but the reality around us is not forced to conform to our equations. For example, if I wrote the equation c=500 mph the speed of light does not suddenly slow down to 500 mph. To the point of the topic, our measurement of the speed of light is also refined by new techniques, and the constancy of the speed of light is also checked on a regular basis in different experiments. Finding deviations in the speed of light would actually be a very exciting find.
OK. So it is possible to test all scientific assumptions and convert them to theories? There is a 100% certainty that they can all be tested?
Now we are to a problem of definition. Theories, by definition, must be testable. If it isn't testable, then it isn't a scientific theory. Hypotheses are given a little more leeway. These are considered questions that people are currently trying to figure out how to answer.
I don't think that's what your cited papers said. For example, the paper on nuclear constants said it was studying the effects of expansion of the universe.
Yes, studying the effects of expansion on physical constants through time here on Earth by studying naturally occuring nuclear reactors that fired up about 2 billion years ago in Oklo which is in modern Africa. These naturally occuring nuclear reactors allow scientists to study the interaction of the fundamental nuclear forces by studying the decay products in those reactors. If the constants had been different in the past then we should see deviations of specific isotopes from the ratios expected from actually constant laws.
I don't see that as saying time or location is the cause.
The nuclear reactors at Oklo test the time component. The masers test both time and location as the speed of light is tested as the Earth moves around the Sun (and around the galactic center).
For similar expansion, I would think the effect is the same regardless of when or where it happens. So this fits with what I said. Once the effect is known (be it expansion, gravity, or dark energy), the compensation is added to the measure.
IOW, constancy is not assumed.
Yet there still remains an assumption that those compensations which have not been added are not affecting the measurement.
How so? Be specific.
But suppose, for the sake of the discussion, a time effect were found. And? It gets added to the list of compensations, and we still have the assumption that effects not in the compensation list are not affecting the measurement.
That is also not assumed. Measurement methodologies are constantly under refinement.
And statistics never effect your measurement?
Statistics are used after the measurement.
It has no impact on sample size, and sample size has no impact on the measurement?
Let's say there are 20 tigers. One scientist weighs the tigers, weighing my favorite tiger "Monty" first. He finds that Monty weighs 200 lbs. Another scientist comes along and also weighs the 20 tigers, weighing Monty last. He finds that the other tigers have an average weight of 300 lbs. How does this average change the measurement of Monty's weight? Will Monty's weight be different because other tigers were weighed before him?
Does other signal processing ever effect the measurement?
Signal processing is done on the measurement.
Just to insure we're on the same page: Accelerometer - Wikipedia, the free encyclopedia
So, following up on my previous comment. What is the "measurement" in an accelerometer?
The article isn't very explicit, but it appears that the measurement is the induction of an electrical current caused by the movement of a magnet through a coil.
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