(Verse 1)
Researchers have discovered intriguing patterns
In the distribution of a numerical marker: 42
Within the infinite decimal expansion of pi
In distances between consecutive appearances of the marker
Scientists have observed what they now term: Fluctuational Resonance
(Chorus)
The irregular distances between the markers
Resemble energy level variations in quantum systems
Raising the question of whether the pi digits
Are governed by principles analogous to quantum mechanics
To quantum mechanics...
The confluence to quantum mechanics
On the distances between the markers
(Verse 2)
Comprehending the marker's distribution
May lead to novel algorithms
For compressing infinite or pseudorandom sequences
While the true significance of these market fluctuations
Remains a mystery
The discovery underscores the complexity of pi
(Bridge)
What appeared as a random sequence
May in fact be a repository of subtle hidden patterns
A tantalizing reminder that even the most well-known constant
May harbor a secret to be unveiled
(Outro)
The irregular distances between the markers
Resemble energy level variations in quantum systems
Raising the question of where the pi digits are governed
By principles analogous to quantum mechanics
To quantum mechanics...
The irregular distances...
You've encoded pi in binary as orange and dark squares! The orange squares are 1s and the dark squares are 0s (or vice versa) — it's pi represented in binary, rendered as a pixel grid!
I am software engineer who finds fun and creativity in Frontend. I would love to be a part of a team to help, develop and learn from new people and add my knowledge to the project.
Let's play a small game. Each word length follows the digits of π:
3 – 1 – 4 – 1 – 5 – 9
Fill in the blanks to make a meaningful sentence. _____________________________________
Happi Pi Day!
Here is song based on π by galaxy heorine:
The song about a Pi/42 theory because in my sci-fi the alien race core knowledge is on 42 markers in the endles Pi sequence.
hell yeah, Peter! ❤🎸
this is so cool...
Lyrics:
42 by Peter Vivo
(Verse 1)
Researchers have discovered intriguing patterns
In the distribution of a numerical marker: 42
Within the infinite decimal expansion of pi
In distances between consecutive appearances of the marker
Scientists have observed what they now term:
Fluctuational Resonance
(Chorus)
The irregular distances between the markers
Resemble energy level variations in quantum systems
Raising the question of whether the pi digits
Are governed by principles analogous to quantum mechanics
To quantum mechanics...
The confluence to quantum mechanics
On the distances between the markers
(Verse 2)
Comprehending the marker's distribution
May lead to novel algorithms
For compressing infinite or pseudorandom sequences
While the true significance of these market fluctuations
Remains a mystery
The discovery underscores the complexity of pi
(Bridge)
What appeared as a random sequence
May in fact be a repository of subtle hidden patterns
A tantalizing reminder that even the most well-known constant
May harbor a secret to be unveiled
(Outro)
The irregular distances between the markers
Resemble energy level variations in quantum systems
Raising the question of where the pi digits are governed
By principles analogous to quantum mechanics
To quantum mechanics...
The irregular distances...
this is pretty dang cool! mathematics and pastry expertise! ❤
I will be eating pie today in pi's honor! 🥧🫡
🥧🥧🥧❤🎉
Checks calendar... hmmmm
I know I know 🤣
happy
🟧🟧🟧🟧⬛️⬛️🟧🟧🟧🟧🟧⬛️⬛️⬛️⬛️🟧🟧🟧🟧⬛️⬛️⬛️🟧🟧🟧⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️
🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️⬛️⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️🟧⬛️⬛️⬛️🟧⬛️⬛️🟧⬛️🟧⬛️⬛️
🟧🟧🟧🟧⬛️⬛️⬛️⬛️🟧⬛️⬛️⬛️⬛️⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️🟧🟧🟧🟧🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️
🟧⬛️⬛️⬛️⬛️⬛️⬛️⬛️🟧⬛️⬛️⬛️⬛️⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️
🟧⬛️⬛️⬛️⬛️⬛️🟧🟧🟧🟧🟧⬛️⬛️⬛️⬛️🟧🟧🟧🟧⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️🟧⬛️⬛️⬛️
Sean Boult, you A+ student, you...
You've encoded pi in binary as orange and dark squares! The orange squares are 1s and the dark squares are 0s (or vice versa) — it's pi represented in binary, rendered as a pixel grid!
You brainiac! I salute you! 💯
Let's play a small game. Each word length follows the digits of π:
3 – 1 – 4 – 1 – 5 – 9
Fill in the blanks to make a meaningful sentence. _____________________________________
How I love a sweet, beautiful algorithm...
or
Buy a taco, a llama surprised everybody" 🦙🌮
Cheers Konark ✨
happy birthday π!
Vladimir, that looks so awesome...i'll be right over 😁
which language buddy?
hiya Benjamin, ah it's the good ole python repl...love it! cheers buddy
Omg, aaron! cheers man