01-18-2019, 01:41 PM
01-18-2019, 03:19 PM
Thanks for share SteB, +5 Reps sent!
I might be just like Einstein after I take this course....
I might be just like Einstein after I take this course....
01-18-2019, 04:00 PM
Thanks ...
01-19-2019, 06:52 PM
[quote='mthomas' pid='2658848' dateline='1547788741']
Thanks for share SteB, +5 Reps sent!
I might be just like Einstein after I take this course....
[/quote]
[quote='Almatrodi' pid='2658878' dateline='1547791216']
Thanks ...
[/quote]
You're welcome guys :) Enjoy it!
Thanks for share SteB, +5 Reps sent!
I might be just like Einstein after I take this course....
[/quote]
[quote='Almatrodi' pid='2658878' dateline='1547791216']
Thanks ...
[/quote]
You're welcome guys :) Enjoy it!
09-05-2021, 12:36 AM
Still FREE!
Description
Utilizing multiple theorems derived from Z = {∀Θ∈Z→∃s ∈ S ʌ ∃t ∈ T: Θ= 〈 (s,t)}., and formulating the equation: X=O+Σ H +( n (log)Φ/P d x , as well as some mathematical constraints and numerous implications in Quantum Physics, Classical Mechanics, and Algorithmic Quantization, we come up with a framework for mathematically representing our universe. These series of individualized papers make up a huge part of a dissertation on the subject matter of Quantum Similarity. Everything including how we view time itself and the origin point for our universe is explained in theoretical details throughout these papers.
https://www.udemy.com/course/quantum-framework/
Enjoy!
Description
Utilizing multiple theorems derived from Z = {∀Θ∈Z→∃s ∈ S ʌ ∃t ∈ T: Θ= 〈 (s,t)}., and formulating the equation: X=O+Σ H +( n (log)Φ/P d x , as well as some mathematical constraints and numerous implications in Quantum Physics, Classical Mechanics, and Algorithmic Quantization, we come up with a framework for mathematically representing our universe. These series of individualized papers make up a huge part of a dissertation on the subject matter of Quantum Similarity. Everything including how we view time itself and the origin point for our universe is explained in theoretical details throughout these papers.
https://www.udemy.com/course/quantum-framework/
Enjoy!