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Santiago Agui Salcedo: 'The analytic wavefunction'

Wavefunction, 2007

Mexico Pavilion

52 Venice Biennale

 

vimeo.com/15871552

 

Whirling Ceremony by Narwhal. In quantum theory, certain physical systems can become "entangled," meaning that their states are directly related to the state of another object somewhere else. When one object is measured, and the Schroedinger wavefunction collapses into a single state, the other object collapses into its corresponding state ... no matter how far away the objects are.

Early concept using raytracing, wavefunction on plane, and opacity of said plane. Boat made by using box-modelling technique, seabottom using subdivision and the only one textured.

vimeo.com/15871552

 

Whirling Ceremony by Narwhal. In quantum theory, certain physical systems can become "entangled," meaning that their states are directly related to the state of another object somewhere else. When one object is measured, and the Schroedinger wavefunction collapses into a single state, the other object collapses into its corresponding state ... no matter how far away the objects are.

Wavefunction collapses aren't all alike. This time is different. That's because someone was paying attention even if the outcome was otherwise unexpected.

I used a sharper light and bouncing in raytracing. Early concept (2006, just after I bought 3DS Max).

Again thanks to ZapperZ from undernet #physics for correcting my mis-identification.

Early concept of same project (Atlantis), were you can see I've exaggerated the wavefunction, making it easier to see. Expanded the boat and using raytracing in the final quick render.

vimeo.com/15871552

 

Whirling Ceremony by Narwhal. In quantum theory, certain physical systems can become "entangled," meaning that their states are directly related to the state of another object somewhere else. When one object is measured, and the Schroedinger wavefunction collapses into a single state, the other object collapses into its corresponding state ... no matter how far away the objects are.

Lecture on |Wavefunction optimization" by Michele Casula (CNRS)

Lecture by Kosuke Nakano (NIMS/Japan) on "Wavefunction optimization (practical viewpoint)"

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A brilliant all- around mathematician and physicist. His ability to solve mathematical puzzles - like the relativistic Schrodinger Equation shown above. As a consequence of using relativistic energy E^2=m^2c^4 + P^2c^2 this predicted antimatter which was later confirmed experimentally. As smart as he was he was reportedly a bit socially awkward and reserved. A radio station once asked him if he'd like to explain his theory and he simply replied "No". There's speculation he was autistic, but it's useless to diagnose people in the past. I imagine when he got going talking about math and physics with people like Einstein and Oppenheimer he was probably quite verbose.

 

I'm doing these to try to improve my skills and inspire me to keep drawing and creating. I've had a lack of inspiration and miss drawing and art.

I don't really have the opportunities to study math and science, which, to some degree, I think is regrettable.

Always provides you with access to the math library because that's useful, too, so you don't always have to remember that.

He was lacking in mathematical training.

And the solution to this equation looks like this where it is written in terms of a quantity called a wavefunction.

   

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