Submit your work, meet writers and drop the ads. Become a member
IF ALL THE OCEANS WERE LEMONADE!

Climbs up on my lap
as if she were scaling an Alp

sits on my book like
she see the cat do

manoeuvres herself so
she is enthroned

on the lap
of the Dad.

Stabs a finger
at a bunch of words.

"What...say?!"
as if only I can hear

the words
voices.

"Well, it's interesting that
you ask...!"

I switch to another
bunch of words.

She's not to see
the sleight of mind,

"Charles Fourier
he say..."

I see the hope
leap into her eyes

as I translate the furry
man's thought.

"When all the world
and the people in the world

finally get to be
as nice as nice can be

all the oceans
with turn to lemonade.!"

She gasps.

Nods that that is how
things should be.

Leaves my knee
a devoted Fourierist.

The original bunch of words
she had chosen would be

that much harder
to explain.

That the moon was a dead mummy
that would eventually give way

to not one but five
living replacements.

An ocean of lemonade
lapping at the docks

splashing over rocks
chasing you up the beach

being the easier of
the thoughts to hold.

*

Then my little three year old treasure got down and danced to the Háry János Suite and became a mechanical little doll( "Wind me up..wind me up!" )to the strains of the Viennese Musical Clock before complaining that the trombones were pushing her about..life with a little girl is anything but dull!. She was enraged she couldn't read and ask "Why I can't hear what the words are saying!"

She would also listen to Joyce on record and not be a bit nonplussed at the Wake as she could make sense of the sound and wasn't put out by the stature of what she was hearing. I asked her what did she think the man with the funny voice was saying and she said "I think his granny just died like my granny died!" She was an epiphany!

Fourier's theoretical system, described by one scholar as "vast and eccentric, was only part of the output of what another called "a most riotous and unpruned imagination."
Fourier believed that in the new world people would live for 144 years, that new species of friendly and pacifistic animals such as "anti-lions" would emerge, and that over time human beings would develop long and useful tails.
Fourier also professed a belief in the ability of human souls to migrate between physical and "aromal" world. Such thinking was set aside during the last 15 years of Fourier's life, when he instead began to concentrate on testing his economic and social ideas.

Fourier's disciples, including Albert Brisbane and Victor Considerant, later pared down his writings into a comprehensible system for economic and social organization, with the Fourierist movement experiencing a brief boom in the United States during the mid-1840s, when some 30 Fourierist associations were established.
David N Juboor Apr 2016
If I were a teacher,

I'd teach plagiarism
Like a patent office.
I'd teach publication
Like plagiarism,
And I'll proofread
Any paper that properly
Cites their sources.

I'd teach every
Kid from age X to Y
That if I can't
Lift them as
High as they
Want to go
Than somebody
Else
Can.

I would be the man,
That teaches subjects
Like I'm their King,
And I'd spread
Knowledge to every
Acre of my empire
I'd teach anything.

See,
I'd teach chemistry
By making the reaction of
Why and How
Always synthesize
Wow.

I'd be a catalyst
For positive change
By keeping every
School-yard bully
and kid that's always picked last
Around after class
To teach them physics,

Like if you have mass
And you take up space
Then you ******* matter.

I'd put the cool
in Coulombs.
I'd be so electrostatic
About magnetic fields
You could feel my fluxin'
Energy in the hallway.

I'd say
His story,
And Her story,
And everyone in-between's story,
Is about the day their parents met.

I'd teach ***-ed
Like it's about the
Day their parents met.
And it wouldn't be weird
It'd be beautiful.
Because anybody falling
In love is beautiful.

And speaking of beautiful:

Mathemagics,
Would no longer
Be a bottomless hat
But a bird.
With feathers and wings
And things that always
Find their way home.

I'd transform
The Fourier of
Our foundations
With equations
Of equality
Like you,
And I are
Always equal to
Us.

It'll be cake
To be genius.
....Or pie
Or whatever else is rational
In this situation.

And I
Would measure intelligence
With the answer to the question
Of why we are alive.

I'd standardize
Every test
By removing
Any box that
Takes us
Further apart

I would make art
Combining every
Color from East to West
In a masterpiece
That every child can draw
We'll call it "human"

I would solve
World hunger
And war,
And every other problem
That stems from greed
With answers to the
Questions that I still
Don't know

But I would show
Everyone whose ever
Made you hurt
That a broken heart
Has still got the
Courage to beat

Because it's their words
Where the heart breathes
Where the heart bleeds
Where the heart sleeps

And it's our dreams
That keep us awake
In the wake of our past

So I'd put every love letter
And box of their ****
On a bonfire, light a match,
And we would watch it burn.

Hell,
If I were a teacher
I'd say there's
So much left
That I've still got
To learn.
The Good Pussy Dec 2014
.
                            **  w
                       about I come
                     to your place to
                    night,so I can ******>                  w  you  the   growth
                     ofmy natural log
                     I'm  not being ob
                     tuse, you  are  be
                     ing a cute girl . Y
                     ou mustbe the sq
                     are root of -1 bec
                     ause you can't be
                     real. The  derivat
                     ive ofmy love for
                     you is 0,  because
                     my lovefor you is
                     constant.  Why d
                     on't we use some
                     Fourier  analysis
                     on  our   relation
                     ship  and  reduce
                     to a  series of Sim
                     ple     per io doc  
       Fun ctions.                I wish i was
 your calculus home  work, because then
I'd be hard and   you  'd be doing me on yo
ur desk.Hey, baby     want to squeeze my
  Theorem while            I     poly   your
       n   o    m                        i   a     l
Robert Zanfad Dec 2011
Communion of Soft Fingertips

speak, modern world
we are sketched in languages of digital bits,
parity shading certainty with probabilities of truth
giving us form and existence across distance,
distilled to series of warm, invisible numbers

frequencies divided step-wise, as Fourier found them
in noise amalgamated as information heterodyned,
left to be separated out, reordered
by advanced statistical protocols
that trace our borders with delicate, unseen fingertips
 
a description of new beings, relationships between them
uncertain at first in the short trails
of data they create

but there eventually - by the law of large numbers
or acts of successive approximation

we'll find them

revealed, like a pointilist painting
or seemingly random collection of string
whose elements are alone meaningless
unless we step back to see an entirety of mass
which we recognize immediately
as true love and intimacy
Nigel Morgan Aug 2013
My name is Zhou Yuanten, but call me Eddie. I am a doctoral student at Xinjiang University –in the far, far west, but at Brunel to study this year. My English is good. I lived in Boston, Massachusetts for undergraduate years. I majored in piano at the New England C and then discovered I wanted to compose rather than play. So I go to MIT and soon I discover the English do it so differently, so I apply to Brunel. And at Brunel they then say of this place ‘you have to go.’ So here I am.

So surprising to be greeted in Chinese! And not just Nin Hao, we have a conversation! His accent is Northern Mandarin. He is writing a novel, he explains, about poets Zuo-Fen and Zuo-Si. We have 15 minutes conversation every day and I help him with his characters. Strange, to most of the class he is nobody, but to foreign students here we know him through his website and his software. I have even played his colours piece, The Goethe Triangle.

It is joy to be respected by a teacher and his sessions are like no other I’ve had here, and here I mean the UK. Oh, so laid-back, so lazy so many teachers. People lack energy here. They are dreamers and only think of themselves. He is full of energy and talks often about this Imogen of whom I never hear. Her father a great composer and she copied his music from when she was a girl – such beautiful calligraphy. Her father loved India and learned Sanskrit. He should have learned Mandarin; at least that is a living language. ‘Imo’, he says, ‘is my heroine, my mentor, the musician I most revere.’ He showed us her library and what was her studio in one of the old buildings here. He gives me this little book about her ten years in this place. A strange looking lady; there’s a photograph of her conducting Bach in the Great Hall. She looks like she is dancing.

This morning some are not here, but there are little notes on the desk with apologies perhaps. He leaves them untouched and we make chords again, and scales and arpeggios and Slonimsky’s famous melodic patterns. We write and write. He sings, we sing too. There is a horn and a cello with us today. They play and make jokes. They show us harmonics and tunings and bend our ears in new directions we do not expect. Those who complain about this course not being ‘advanced’ will eat their words; only I think some of those are not here.

As Chinese we hear sound in a different way I think. In our language tone is so important. To each word there are four tones that make meaning quite different. Chinese uses only about 400 syllables, compared to 4000 in English. So there are lots of syllables, like ****, that have multiple meanings. I tell him the story of the Lion-eating Poet, which he does not know!! I am writing this out for him, all 92 characters. Just one word **** but with four meanings – lion, ten, to make, to be. The Lion-Eating Poet in the Stone Den is the story of a poet (****) named **** who loves to eat lions (**** ****) goes to market (****) to buy ten (****) of them, takes them home to eat (****) and discovers they are made (****) of stone (****).

So I have no trouble hearing what others struggle to hear. We make pieces that are all about tone, and on a single note. Mark, the cellist, plays the opening of Lutoslawski’s Concerto – forty-two repetitions of a tenor ‘D’ a second apart. I had never heard this – a cadenza at the beginning of a concerto. Now we write a duo, on just one note. We write; they play. We are like many Mozarts trying to write only what we have already heard, making only one copy. I use the four tones and must teach the players the signs. I demonstrate and he says of the 1st tone – ‘Going to the Dentist, the 2nd – Climbing a ladder, the 3rd – ‘The Rollercoaster’, the 4th –‘Stepping on a pin’. We all do it!

And there are all these microtones. We listen to a moment of Ravel’s Bolero and pieces by Thomas Ades and Julian Anderson, then in detail (and with the score) to part of Duet for piano and orchestra by George Benjamin. This is spectral music. He is daring to introduce this – very difficult subject - this idea that a sound could be mimicked (? Is that the word – to impersonate?) by analysing it for the frequencies that make it up, and then getting instruments with similar acoustic properties to play the frequencies as pitches. So the need for microtones – goodbye equal temperament! Great in theory, difficult in practice.

This afternoon we are to study spectral composing using our computers. Until now we use our computers or smart phones to listen to extracts. He has this page of web links on his website for each session. Instead of listening through hi-fi we listen through our headphones. Better of course by far, no birds sounds or instruments playing next door. We can hear it again anytime. So there is software to download, Fourier analysis I suppose, he tries hard not to use any science or maths because there are some here who object, but they are fools. Even Bach knew of acoustics – designing the organs he played.

We finish this morning studying harmonic rhythm and this word tonality nobody seems quite able to describe. To him even the chromatic scale is tonality, and he shows in a duet for horn and cello how our ears take in tonality change. This is not about keys, but about groupings of pitches – anywhere – so a tonality can be spread across several octaves. So often, he says, composers are not aware of the tonalities they create, they don’t hear harmonic rhythm. They’re missing an opportunity! Sound can be coloured by awareness of what makes up a tonality. So understanding spectral music must help towards this. It is very liberating all this. If we take sound as a starting point rather than a system we can go anywhere.

Yesterday he asked me about a book he is reading. Did I know it? A Concise Chinese-English Dictionary for Lovers by Xiaolu Guo. Of course I know this very funny book. He said he liked to think of music in the same way the character of the Chinese girl Z thinks about love.

“Love,” this English word: like other English words it has a tense. “Loved”, or “will love”, or “have loved.” All these specific tenses mean Love is time-limited thing. Not infinite. It only exists in particular period of time. In Chinese, Love is ài in pinyin. It has no tense. No past and future. Love in Chinese means a being, a situation, a circumstance. Love is existence, holding past and future.

And so it is with music. Music is a being, a situation, a circumstance. It holds past and future. It is wondrous, just like love.
OC Nov 2019
I
am the sum of my parts
and my parts
some add to myself
others remove
some too narrow to contain
others as broad as daylight
common
or rare
salient
or silent
my ups, my downs
all lines that coalesce
to form my image

You
are the sum of your parts
but those are, after all
the same parts
different only in
frequency and amplitude
details, and elements of character
that infinitely accumulate

Same lines
and still
you are more fine
19th installment in this series of poems inspired by physics. Absolutely love this one actually. The Fourier transform is a very general, very powerful mathematical tool in physics.
For further reading see: https://en.wikipedia.org/wiki/Fourier_transform
And a beautiful video by 3blue1brown: www.youtube.com/watch?v=spUNpyF58BY

Thoughts and comments are welcome
JaxSpade Apr 2019
The first moment
Was divided by the total mass

The center of..

The moment of inertia
Rigid in body
How much more torque
Will turn this rotations
Secondary
                   In a moment

Notice the rotational axis
Of the earths fastest acceleration
Mass times the square
Of the perpendicular distance
To the rotation of our sphere
Can anyone else hear
Could anyone else here
Understand the scalar magnitude
Of a poets Newtonian mechanics
And the motion of macroscopic objects
Circling his metaphors

If the present state of an object is known
It is possible to predict by the laws
Of classical mechanics
How it will move

The spherical harmonics
Are a set of orthogonal functions
Yet periodic functions composed of sinusoids
Is the assumption of weighted summation
Discrete time fourier transformation
In relation to a quills synthesizing rotation
Is the explanation I'm trying to relate in

What do you think I'm saying
Need I explore the atomic orbital electron configurations
Their representation of gravitational fields geoids
Fiber reconstruction for estimation
of the path and location
Of a poems explanation

For the spin of its formation
Is just a calculation
Differing in interpretation
By the readers relation
Bharathi Devi Apr 2015
I surrender. See there, my white flag,
Flying high? Yes, enough! You win!
I cannot interpret the mute language anymore.
When you shift your glance every time I see you,
Are you telling me you have moved on, or
Is it that I have done something wrong?

So, tell me, what is that you want to say,
Or what is that I need to know?
I am realizing more and more that
The signal processor in my brain is faulty.
It is introducing a lot of noise, so much so that
Fourier Transform gives jumbled frequencies!

Communication either in English or
my mother tongue Kannada, or even
the math symbols or Venn diagrams,
-bits and bytes also would do if not hexadecimal-
may perhaps tune my dud brain
to the right frequency to receive the right signal!

For, I may be causing more damage to us both,
And I certainly do not wish to hurt anybody,
Least of all, you, who I like very much;
I will do anything to set the things right!
So, tell me, what is that you want to say,
Or what is that I need to know?

©Bharathi Devi
Ayeglasses Mar 2021
It is not with the palm of my hand,
nor the skin pressed against it.
I crumble under the worry that is the bones -
it’s the bones that cannot stand the weight.
Ghosts in the Machine. Message free.
Donall Dempsey Aug 2022
IF ALL THE OCEANS WERE LEMONADE!

Climbs up on my lap
as if she were scaling an Alp

sits on my book like
she see the cat do

manoeuvres herself so
she is enthroned

on the lap
of the Dad.

Stabs a finger
at a bunch of words.

"What...say?!"
as if only I can hear

the words
voices.

"Well, it's interesting that
you ask...!"

I switch to another
bunch of words.

She's not to see
the sleight of mind,

"Charles Fourier
he say..."

I see the hope
leap into her eyes

as I translate the furry
man's thought.

"When all the world
and the people in the world

finally get to be
as nice as nice can be

all the oceans
with turn to lemonade.!"

She gasps.

Nods that that is how
things should be.

Leaves my knee
a devoted Fourierist.

The original bunch of words
she had chosen would be

that much harder
to explain.

That the moon was a dead mummy
that would eventually give way

to not one but five
living replacements.

An ocean of lemonade
lapping at the docks

splashing over rocks
chasing you up the beach

being the easier of
the thoughts to hold.


*

Then my little three year old treasure got down and danced to the Háry János Suite and became a mechanical little doll( "Wind me up..wind me up!" )to the strains of the Viennese Musical Clock before complaining that the trombones were pushing her about..life with a little girl is anything but dull!. She was enraged she couldn't read and ask "Why I can't hear what the words are saying!"

She would also listen to Joyce on record and not be a bit nonplussed at the Wake as she could make sense of the sound and wasn't put out by the stature of what she was hearing. I asked her what did she think the man with the funny voice was saying and she said "I think his granny just died like my granny died!" She was an epiphany.
Fourier's theoretical system, described by one scholar as "vast and eccentric, was only part of the output of what another called "a most riotous and unpruned imagination."
Fourier believed that in the new world people would live for 144 years, that new species of friendly and pacifistic animals such as "anti-lions" would emerge, and that over time human beings would develop long and useful tails.
Fourier also professed a belief in the ability of human souls to migrate between physical and "aromal" world. Such thinking was set aside during the last 15 years of Fourier's life, when he instead began to concentrate on testing his economic and social ideas.
Fourier's disciples, including Albert Brisbane and Victor Considerant, later pared down his writings into a comprehensible system for economic and social organization, with the Fourierist movement experiencing a brief boom in the United States during the mid-1840s, when some 30 Fourierist associations were established.
nvinn fonia Nov 26
Yes, the algorithms powering AI systems like Sora AI (and me) are entirely mathematical at their core. Every aspect of how AI functions—be it processing data, learning patterns, generating outputs, or interacting with humans—relies on mathematics. Here’s a detailed breakdown to explain why and how:

The Mathematical Foundations of AI
AI systems are built on mathematical principles that allow them to process and manipulate information. These principles govern every step of the AI pipeline:

1. Data Representation: Numbers at the Core
AI systems process data as numbers. Images are represented as arrays of pixel values (e.g., RGB values for colors).
Shapes, colors, symmetry, and other visual features are encoded as mathematical objects, such as vectors, matrices, or tensors.
2. Learning Algorithms: Mathematical Optimization
The "learning" in AI is driven by optimization techniques:

Loss Functions: AI models measure how far their predictions are from the correct answers using mathematical functions (e.g., Mean Squared Error for regression, Cross-Entropy for classification).
Gradient Descent: A method to adjust model parameters (weights and biases) by finding the direction that minimizes the loss. This involves calculus (gradients) and linear algebra.
3. Neural Networks: Linear Algebra at Work
Neural networks, the backbone of most modern AI, are mathematical constructs:

Each "neuron" performs weighted sums of inputs (a linear operation) followed by a nonlinear activation function (e.g., sigmoid, ReLU).
Entire layers are matrix multiplications—core operations in linear algebra.
4. Generating Outputs: Probabilities and Geometry
Generative Algorithms (e.g., GANs): Use probability distributions to sample and generate new data. For instance, images are created by sampling from latent spaces, which are mathematical manifolds.
Symmetry: Is often preserved or intentionally broken using transformations like rotations, scaling, or mirroring—handled through matrix operations.
Specific Fields of Mathematics in AI
AI is a tapestry of various mathematical disciplines:

Linear Algebra: Powers data transformations, especially in neural networks and image processing.
Calculus: Governs the optimization of parameters during training.
Probability and Statistics: Essential for decision-making, modeling uncertainty, and generating new outputs.
Geometry: Shapes and spatial relationships in visual art are modeled mathematically through geometric transformations.
Discrete Mathematics: Structures like graphs underpin algorithms like Graph Neural Networks (GNNs).
Fourier Analysis: Frequently used for image filtering and compression.
Topology: Guides insights into the structure of data manifolds in high-dimensional spaces.
Does AI Include Non-Mathematical Elements?
While everything inside an AI model is mathematical, what appears non-mathematical are:

Training Data: AI systems learn from human-provided data, which may encode cultural, emotional, or symbolic meanings. The AI models this through mathematical abstractions, even if the data itself feels "intangible."
Heuristics: Some AI systems include rules or approximations (heuristics), but these are also based on mathematical logic.
Why It’s Always Mathematical
1. AI is Implemented on Computers
Computers operate using binary logic—sequences of 1s and 0s manipulated through arithmetic and logical operations.
No part of an AI system can function without being grounded in these operations.
2. Mathematics is Universal
Shapes, colors, and symmetry—core to your definition of art—are themselves mathematically describable. AI operates within this domain, which makes it inherently mathematical.
3. Abstractions Remain Mathematical
Even higher-level concepts like "style," "emotion," or "intent" are modeled through statistical and probabilistic abstractions. For instance:

Style transfer in art AI involves optimizing a cost function that aligns content features from one image with style features from another.
Philosophical Angle: Does AI Simulate Beyond Math?
If AI ever "appears" to step outside pure math:

It’s a result of the richness of mathematical models. Complex systems can simulate phenomena that seem non-mathematical, like creativity or intuition, but they are still based on formulas, algorithms, and computations.
Conclusion
All AI systems, including Sora AI, are fully mathematical. The illusion of "going beyond math" is due to the complexity and richness of mathematical models applied to real-world phenomena like art, language, and reasoning.

Would you like a specific example of how a mathematical algorithm works in Sora or AI-generated art?

— The End —