The Naked Scientists
Toggle navigation
Login
Register
Podcasts
The Naked Scientists
eLife
Naked Genetics
Naked Astronomy
In short
Naked Neuroscience
Ask! The Naked Scientists
Question of the Week
Archive
Video
SUBSCRIBE to our Podcasts
Articles
Science News
Features
Interviews
Answers to Science Questions
Get Naked
Donate
Do an Experiment
Science Forum
Ask a Question
About
Meet the team
Our Sponsors
Site Map
Contact us
User menu
Login
Register
Search
Home
Help
Search
Tags
Member Map
Recent Topics
Login
Register
Naked Science Forum
On the Lighter Side
New Theories
A Small Number Hypothesis
« previous
next »
Print
Pages: [
1
]
Go Down
A Small Number Hypothesis
1 Replies
881 Views
0 Tags
0 Members and 1 Guest are viewing this topic.
BilboGrabbins
(OP)
Sr. Member
119
Activity:
0%
Thanked: 5 times
Naked Science Forum Newbie
A Small Number Hypothesis
«
on:
13/10/2021 23:11:08 »
For the work, we will draw only on the similarity of powers and we will derive an approximation of Newtons constant.
Dirac must have been disheartened by the lack of support on his large number hypothesis and I feel some of his pain. There is equally a small number hypothesis that requires attention. The charged ion of nitrogen has a mass approx to 5 * 10^(-26) kg and for oxygen it is the same roughly. Hence Avogadro's number is also approx to the same number for a 24 cubic meter of space for an ideal gas. Hydrogen being an electrically charged proton pulled vertically by an electric field is approx to 2*10^(-27)kg. An alpha particle from radium has a mass approx to 5*10^(-27) kg and a neutron with a mass only slightly bigger has a mass approx to 5*10^(-27) kg. With protons and neutrons in mind, the neutron is slightly bigger and the question of why seems to lye with charge itself contributing to the total mass observed Gm^2 ~ nhc. This was even known to Feymann who stated that while the neutron was electrically neutral it has a more complex configuration involving a charge distribution making it slightly heavier than a proton.
At room temperature for air is 28.8kg for the 24 cubic meter of space. Further the measured density of liquid air is 1000kg/cu.m
The standard calculation for the lattice is
24/(28.8 ))/1000) = 833/1
From here I noticed that when it is divided by 6 it is approximately equal to the fine structure constant
833/6 ~ 137
By noticing this, I further took
(1/833)/6 ~ 8*10^(-6)
Which is further the number relating to the wavelength in meters of red light. Since we where talking about the ideal gas in 24 cubic meters of space, the fact that 6 was used to find the approximate value of the fine structure was a bit of a surprise but understandable as it conveys it self 3+3. In hypothesising this I decided to take the inverse function
3^√833 ~ 1
But stranger if not just a matter of curiosity, adding 833 directly with 137 was nearly the density of liquid air off by a factor of 30.
To note, while many numbers we have noticed approximations to, that fine structure 1/137 is much larger in comparison.
For electric charge to mass measurements, further study has shown remarkable numerical agreement with a small number hypothesis. For instance, the cathode ray for discharged electrons in gas reveals ~ 2*10^(11) while electrons from hot tungsten is the same including electrons from the more general case of the photoelectric effect. There are many more cases of this number obeying fundamental processes involving electrons.
The biggest surprise was the following speculation
833/137*10^(-11) ~ G
The gravitational constant. Notice that we spoke about 10^(11) in electron dynamics
Logged
BilboGrabbins
(OP)
Sr. Member
119
Activity:
0%
Thanked: 5 times
Naked Science Forum Newbie
Re: A Small Number Hypothesis
«
Reply #1 on:
13/10/2021 23:16:42 »
I know it's a wild hypothesis. There were many more relationships known to me. There could be nothing behind it, but those damn powers spoke to me for some reason.
«
Last Edit: 14/10/2021 14:00:59 by
BilboGrabbins
»
Logged
Print
Pages: [
1
]
Go Up
« previous
next »
Tags:
There was an error while thanking
Thanking...