That is the first post in which I proposed some Gedankenexperiments.
Here's an updated proposal.
A small team of JREF members is going diving. Into a carefully constructed tank. Actually, a whole lot of identical tanks.
Each tank has a ruler on the inside of one of its vertical sides, with the surface marked as zero. Each tank is filled with pure water, held at a constant temperature.
Each diving team carries a suite of pressure gauges, each of which operates via physical processes that differ in at least one respect from all the other gauges. For example, one such gauge works by detecting phase changes in chemically pure substances, another by the deflection of a membrane (vacuum one side, water the other). Each team also has a chem lab and a thermometer, to check the composition and temperature of the medium (water).
Accompanying each JREF team is two teams of observers. One - the Observer A team (OAT, for short) - is equipped with appropriate recording devices, so there is an objective, independently verifiable, record of the experimental results. OAT also broadcasts their records, in real time, to the whole universe; their broadcast is a 'multi-messenger' one: the signal is encoded onto streams of photons (of several different wavelengths), also onto streams of neutrinos, OAT sends out little USB-key-like packets, etc.
The B Observer team (BOT, for short) is also equipped with appropriate recording devices and 'multi-messenger telescopes'. You see, BOT observes all the
other JREF diving teams! I.e. they look, very closely, at how the experiments are carried out, sorta like taking a video of what's happening, from afar. BOT also detects the outputs from the OATs (other than their own team's OAT). The purpose is, as you might guess, to be able to compare and contrast the records of the experiments - their conduct and their outputs - as perceived by the locals (the OATs) and the remotes (the BOTs).
The diving teams set up their tanks in many locations: at various places on the solid surface of the Earth, deep in mines dug into that solid surface, on tall towers built above it; ditto on the surfaces of other solar system bodies, etc. (We are all living in the far future!
)
For the next series of experiments, the teams travel the world each with a gravimeter, an altimeter, and our usual cast of observer teams. Again, this being the far future, we are able to conduct our experiments on, and above, the surfaces of many solar system bodies.
At the end of the experiments, everyone gathers together in a nice, comfortable resort. We all pitch in to analyze the data (which includes all the OATs' and BOTs' records). Our aim is to produce a succinct set of rules, which we call "laws" (and which all members of all teams agree on), which compactly summarize all the experimental results. These laws might, for example, include a formula relating depth to pressure, temperature, altitude, and
g. The laws will also, explicitly, contain statements concerning any differences in laws derived by analyzing data obtained locally with those derived by analyzing data obtained by observing remotely.
With me so far? Any questions or comments?
For the next set of experiments each JREF team carries with it a standard clock, a standard ruler (i.e. devices which measure time and length, per the SI definitions), and a parallel-mirror light clock. They also have pressure gauges, thermometers, gravimeters, ... This time each team has some friends along, each of whom has their own clock, and each clock is of a different kind; one has a grandfather clock, another a quartz crystal clock, a third an optical clock, a fourth a radioisotope clock, a fifth a SAW (Surface Acoustic Wave) clock, a sixth a tuning fork clock, a ... Oh, and our usual retinue of OATs and BOTs.
A critically important set of members of each experimental team are friends of Farsight (FoF). They are thoroughly conversant with the Farsight method of measuring the (local) speed of light using distant pulsars, and with the Farsight method of measuring the (local) impedance of space*. Of course, the OATs record the work of the FoF, and the BOTs record that work too, remotely, as well as recording what they receive from the OATs.
The teams visit all the places previously visited in 'gravimeter experiments'. This being the very far future, there are teams which go to environments considerably more extreme than any visited previously, like near the photosphere of the Sun, in deep space, just above the surface of a white dwarf star, ditto of a neutron star.
As before, everyone gets together afterwards, at a (different) comfortable resort, analyzes the data, and agrees on a set of laws which succinctly describe/account for all that data.
With me so far? Any questions or comments?
* Note: we do not - yet - know what these methods are
.)
