"We don't have a theory of it", which is good, because the experimental approach to measuring constants is only limited by the knowledge of QM-TIME logic of superimposed, frequency-amplitudes logarithmic condensation. It's a matter of seeing through the time-timing sync-duration Universal Positioning system of superimposed cycles of holography Circuitry. (Someone's got the tech from a crashed UAP tucked away, but need a tech support advisor to help)
I found it very interesting and I believe I understood most of it. I have in the last few days been watching video's and studying cesium 137 clocks (the HP one) which has been a great help to understand this. My question now is thinking about Time Dilation does that bring down the scanned frequency of the absorbed or produces light to a lower frequency if the clock is moved at high speed?
How accurate are the best clocks now? And how much more accurate a clock do you anticipate? And as this nuclear clock is refined, how accurate can it become?
The implications of this phenomena being controlled at a nuclear level is bonkers. Most transistors are the size of the thickness of a human hair. They've in essence made something that switches at a regular frequency when excited by a Lazer something that is 100,000 times smaller than the width of a human hair. Bruh Assuming I'm understanding this experiment and research right.
Transistors on the nanometer scale bruh, do you have an idea how smaller that than hair ? But yea, nuclei is even a crapton smaller than that, you got that part right.
"We don't have a theory of it", which is good, because the experimental approach to measuring constants is only limited by the knowledge of QM-TIME logic of superimposed, frequency-amplitudes logarithmic condensation.
It's a matter of seeing through the time-timing sync-duration Universal Positioning system of superimposed cycles of holography Circuitry. (Someone's got the tech from a crashed UAP tucked away, but need a tech support advisor to help)
I found it very interesting and I believe I understood most of it. I have in the last few days been watching video's and studying cesium 137 clocks (the HP one) which has been a great help to understand this. My question now is thinking about Time Dilation does that bring down the scanned frequency of the absorbed or produces light to a lower frequency if the clock is moved at high speed?
How much would it cost to build a Thorium isotope clock?
How accurate are the best clocks now? And how much more accurate a clock do you anticipate? And as this nuclear clock is refined, how accurate can it become?
Wow thats wild. I dont even know when I subbed here but here we are.
The implications of this phenomena being controlled at a nuclear level is bonkers. Most transistors are the size of the thickness of a human hair. They've in essence made something that switches at a regular frequency when excited by a Lazer something that is 100,000 times smaller than the width of a human hair. Bruh
Assuming I'm understanding this experiment and research right.
Transistors on the nanometer scale bruh, do you have an idea how smaller that than hair ? But yea, nuclei is even a crapton smaller than that, you got that part right.
Go Science! ^.^
Have you read "We Have Lost a Half of Solar Energy, the Half that We Never Had"?
Sundials are the most accurate time keeping device invented by man. The problem is, they lack precision. As precision goes up, accuracy goes down.
I fell asleep after 2.5 minutes.