Sonia/eye: Difference between revisions
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main idea | main idea | ||
<span style="color:# | <span style="color:#bbbbbb;"> chaos theory +/or nonlinear systems in physics visualised (poetically). <br> | ||
end result | end result | ||
<span style="color:# | <span style="color:#bbbbbb;"> a screensaver :-/<br> | ||
what is chaos theory <br> | what is chaos theory <br> | ||
<span style="color:# | <span style="color:#bbbbbb;"> "pioneered by MIT’s Edward Lorenz in the 1960s, chaos theory holds that many macroscopic physical systems are so sensitive to initial conditions that, even though they can be described by a deterministic theory, they evolve in unpredictable ways. A weather-system model, for instance, might yield entirely different results if the wind speed at a particular location at a particular time is 10.01 mph or 10.02 mph." — [http://news.mit.edu/2014/fluid-systems-quantum-mechanics-0912 <span style="color:#cccccc;">source] | ||
reference <br> | reference <br> | ||
[https://www.youtube.com/watch?v=AwT0k09w-jw <span style="color:# | [https://www.youtube.com/watch?v=AwT0k09w-jw <span style="color:#bbbbbb;">double pendulum] <br> | ||
[https://www.youtube.com/watch?v=J85gpcjvqzs <span style="color:# | [https://www.youtube.com/watch?v=J85gpcjvqzs <span style="color:#bbbbbb;">triple pendulum] <br> | ||
[https://www.youtube.com/watch?v=MIftw2KjcxM <span style="color:#bbbbbb;">better triple pendulum] <br> | |||
inspiration <br> | inspiration <br> | ||
[https://www.youtube.com/watch?v=wvJAgrUBF4w <span style="color:# | [https://www.youtube.com/watch?v=wvJAgrUBF4w <span style="color:#bbbbbb;">resonance] <br> | ||
[https://www.youtube.com/watch?v=hXOEoH5q3Hw <span style="color:# | [https://www.youtube.com/watch?v=hXOEoH5q3Hw <span style="color:#bbbbbb;">glow in the dark double pendulum] <br> | ||
[http://www.clausewitz.com/mobile/chaosdemos.htm <span style="color:#bbbbbb;">chaotic system demonstrators] | |||
keywords / other lines of inquiry <br> | keywords / other lines of inquiry <br> | ||
<span style="color:# | <span style="color:#bbbbbb;"> turbulence, circular (nonlinear?) polarisation, complex wave systems, screensaver, high speed capture, slow motion, optical science, physics, flow, fluid mechanics, fractals, butterfly effect... | ||
[[File:©SoniaMangiapaneOptics.JPG|600px]] | [[File:©SoniaMangiapaneOptics.JPG|600px]] | ||
process <br> | |||
<span style="color:#bbbbbb;"> prototyping & testing for construction of triple pendulum <br> | |||
[[File:©SoniaMangiapane Prototyping003.JPG|500px]] <br> | |||
[[File:©SoniaMangiapane Prototyping001.JPG|500px]] | |||
[[File:©SoniaMangiapane Prototyping002.JPG|500px]] | |||
<span style="color:#bbbbbb;"> sexy lumetri scopes in premiere <br> | |||
[[File:©SoniaMangiapane_lumetri01.JPG|500px]] | |||
[[File:©SoniaMangiapane_lumetri02.JPG|500px]] | |||
tech specs <br> | |||
<span style="color:#bbbbbb;"> shot on Sony FS7 @ 24fps / 120fps <br> | |||
debrief <br> | |||
<span style="color:#bbbbbb;"> Interesting how a few people have commented that (although it wasn't my intention) it ties in with my other research interests. I'm starting to see a meditative or contemplative thread running through my work. An interest in exposing hidden systems, exposing the underlying code of physical, optical, scientific processes. |
Latest revision as of 22:44, 6 March 2019
main idea
chaos theory +/or nonlinear systems in physics visualised (poetically).
end result
a screensaver :-/
what is chaos theory
"pioneered by MIT’s Edward Lorenz in the 1960s, chaos theory holds that many macroscopic physical systems are so sensitive to initial conditions that, even though they can be described by a deterministic theory, they evolve in unpredictable ways. A weather-system model, for instance, might yield entirely different results if the wind speed at a particular location at a particular time is 10.01 mph or 10.02 mph." — source
reference
double pendulum
triple pendulum
better triple pendulum
inspiration
resonance
glow in the dark double pendulum
chaotic system demonstrators
keywords / other lines of inquiry
turbulence, circular (nonlinear?) polarisation, complex wave systems, screensaver, high speed capture, slow motion, optical science, physics, flow, fluid mechanics, fractals, butterfly effect...
process
prototyping & testing for construction of triple pendulum
sexy lumetri scopes in premiere
tech specs
shot on Sony FS7 @ 24fps / 120fps
debrief
Interesting how a few people have commented that (although it wasn't my intention) it ties in with my other research interests. I'm starting to see a meditative or contemplative thread running through my work. An interest in exposing hidden systems, exposing the underlying code of physical, optical, scientific processes.