Structure-based color displays have already been created with vertically-aligned plates in a so-called interferometric modulator. It would be interesting to see someone commercialize a similar technique using this hemispherical method with total internal reflection and electrowetting principles to change that exit angle dynamically.
Im really hoping to get into M I T when I am older and have a good experience with tech and I love coding and building pcs and many things. I LOVE TECH. hopefully I will see you guys later!
Amazing and interesting, but why did this phenomena take so long to be discovered and explained. Optics at a reasonable level of scientific understanding goes back to Newton. This also shows that there are basic discoveries still waiting to be found, explained, and applied.
I partially agree and disagree. This is not a new discovery, these phenomena are explored and their natural occurrences have been reasoned. But, we are equipped now with, previous generations were not, sophisticated instrumentation to produce droplets of the same size, again and again, to allow them to stay stable, computation power to make simulations to do predictions, etc. So, the whole thing can be seen as redoing what is already known with better instruments. I accept that there are still basic discoveries waiting to be found.
I have no other point to add to this already precious conversation. Just wanted to applaud both of you while creating a long paragraph myself. Hope I delivered it.👏
I feel as if a lot of scientific discoveries such as this have been well documented long before they are released to the general public. For example, the recent "rediscovery" of Earth's atmosphere extending hundreds of thousands of miles past the Moon. While completely new to me and thousands of others, this is over 30 year old information apparently, and some say they remember when this was announced. We were taught all about NASA and the moon landing and other sub categories of space here and there in school, but this was definitely never mentioned. Kind of a big detail to exclude, no? But, what do I know? I'm just another 97%er, on my own singular quest to uncover what IS. Cheers.
Interesting, but curious how this plays out in a world increasingly dominated by LED lighting? Sure in full sun or full spectrum light, you can generate a full rainbow of color. Do you get the same effect if the lighting only has a few spectral peaks?
Refraction (bending of light) and scattering of light help in the formation of rainbow. But in case of TIR (Total Internal Reflection), the incident ray gets reflected inside the first medium rather than getting refracted into the next medium. Rainbows involve two mediums - air and water and the light incident from the sun gets refracted to form a spectrum or band of colours like in the case of prism. Hope it helps.
Over a decade ago, was there not a new type printer that can produce the full spectrum of colors on regular paper without any ink or of the sort, but from micro-precision lasers as inspired by the Blue Morpho Butterflies?
Pretty, but the science is pretty common-sense stuff, no offense. I saw MIT had a RUclips channel and I expected, I dunno, time-travel or something lol
I think my favorite part is that they used music with a 5/4 time signature!
Structure-based color displays have already been created with vertically-aligned plates in a so-called interferometric modulator. It would be interesting to see someone commercialize a similar technique using this hemispherical method with total internal reflection and electrowetting principles to change that exit angle dynamically.
Im really hoping to get into M I T when I am older and have a good experience with tech and I love coding and building pcs and many things. I LOVE TECH.
hopefully I will see you guys later!
Curious how it ended out! Did you get in?
Colorless coloring
These results are polarizing 😉
this is fascinating! the prospect of not using chemicals could eliminate the need for animal testing!! so pretty
Now engineer a substrate that can change the radius of the droplets, and you can sort of mimic chameleon or cuttlefish. Nice.
Amazing and interesting, but why did this phenomena take so long to be discovered and explained. Optics at a reasonable level of scientific understanding goes back to Newton. This also shows that there are basic discoveries still waiting to be found, explained, and applied.
I partially agree and disagree. This is not a new discovery, these phenomena are explored and their natural occurrences have been reasoned. But, we are equipped now with, previous generations were not, sophisticated instrumentation to produce droplets of the same size, again and again, to allow them to stay stable, computation power to make simulations to do predictions, etc. So, the whole thing can be seen as redoing what is already known with better instruments. I accept that there are still basic discoveries waiting to be found.
I have no other point to add to this already precious conversation. Just wanted to applaud both of you while creating a long paragraph myself. Hope I delivered it.👏
Thank you! I agree.
@@abhilashch2189 ok good point:) I was strangely disappointed watching this until I read your comment.
I feel as if a lot of scientific discoveries such as this have been well documented long before they are released to the general public. For example, the recent "rediscovery" of Earth's atmosphere extending hundreds of thousands of miles past the Moon. While completely new to me and thousands of others, this is over 30 year old information apparently, and some say they remember when this was announced. We were taught all about NASA and the moon landing and other sub categories of space here and there in school, but this was definitely never mentioned. Kind of a big detail to exclude, no? But, what do I know? I'm just another 97%er, on my own singular quest to uncover what IS. Cheers.
Our Team of Engineers.........lol
Interesting, but curious how this plays out in a world increasingly dominated by LED lighting? Sure in full sun or full spectrum light, you can generate a full rainbow of color. Do you get the same effect if the lighting only has a few spectral peaks?
Isnt total internal reflexion actually what makes rainbow? How is it any different?
Refraction (bending of light) and scattering of light help in the formation of rainbow. But in case of TIR (Total Internal Reflection), the incident ray gets reflected inside the first medium rather than getting refracted into the next medium. Rainbows involve two mediums - air and water and the light incident from the sun gets refracted to form a spectrum or band of colours like in the case of prism.
Hope it helps.
anonymous noname this is 10th grade stuff where I study.
@@pratibhabansod6024 this 9th grade stuff where I study ( jee coaching schools syllabus).
Asima Khan well then just wish me luck for my Advance 👍
@@pratibhabansod6024 well I happen to be in class 11, hope you enjoy physics and all the best.
0:55 here!
MS3300 That’s you?
That is mind bending
Hell yeah first.
Good stuff MIT
Mit is the best
Over a decade ago, was there not a new type printer that can produce the full spectrum of colors on regular paper without any ink or of the sort, but from micro-precision lasers as inspired by the Blue Morpho Butterflies?
That looks amazing
And its behind a paywall.
Or transparent screens
Thats MIT for ya..
Colour is nothing but a light with different wavelength
How can I go in mit
I love this
Wow
HARRY POTTER CLOAKING ROBE
Rainbow design rule
👍👍👍👍👍👍👍👍👍
I need more drugs !
Pretty, but the science is pretty common-sense stuff, no offense. I saw MIT had a RUclips channel and I expected, I dunno, time-travel or something lol