Post by skyship on Feb 7, 2014 3:46:11 GMT -5
Microscopic Analysis of Snow.
www.youtube.com/watch?v=tmSn0na-i-w
=========================
Many things mentioned in this video:
MCM-41:
encrypted.google.com/search?q=MCM-41&tbm=isch&tbo=u&source=univ&sa=X&ei=ppL0Ute6N8KIyAGJjIGAAw&ved=0CDEQsAQ&biw=833&bih=436
Polymer Fiber 3D Prints into filaments, fuses organic:]there is a 2 photon polymerizatin that involves non natured states of protein. 15N and 13C photons are related to proteins. So must utilize the nucelated ice protein in Pseudomonos Syringae.
photoblog.nbcnews.com/_news/2012/03/31/10959909-3d-printer-prints-sand-grain-size-models-at-record-speed?lite
Living, 3D-printed cyborg ear: Promising, but eww
arstechnica.com/science/2013/08/living-3d-printed-cyborg-ear-promising-but-eww/
Also mentioned in video:
DU: depleted uranium
Methane
Pseudomonos Syringae
Polymer produced nanites
Nano
Nucleated protein from pseudomonos syringae:
It cannot snow on cue for the purposes of a winter scene on a film set. The answer, as we all know, is artificial snow. Artificial snow has been on the scene for some years now and is quite extensively used in the States, as in Europe, to satisfy tourists on skis besides the film industry.
A number of methods are used to make snowflakes out of water. One of which uses the abilities of bacteria such as Pseudomonas syringae. This little critter can initiate crystallization at temperatures as high as –3° C. High? Yes, –3° C is warm for ice formation considering that pure water only crystallizes at temperatures as low as –40°C! How does P.syringae do it? Well, in its membrane is lodged a protein – known as the ice nucleation protein (INP) – which is at the heart of ice nucleation. Precisely. The protein’s structure is such that it could well act as a template for the ice nucleation process by mimicking the pattern of an ice crystal lattice.
Why bacteria sport INPs in the first place is a mystery. Would it be for some kind of protection? It is difficult to grasp how the process of freezing could protect an organism in the first place. However, whatever secret purpose may lurk behind ice nucleation promoted by bacteria, INPs are certainly serving the interests of a certain number of humans in their pursuit of pleasure and consumption, be it for the purposes of entertainment, sport or perhaps, with time, even frozen foods.
Ice nucleation protein, Pseudomonas syringae : P06620
<http://web.expasy.org/spotlight/snapshots/001/>
=============================
www.uniprot.org/uniprot/P06620
==============================
Much more to look up and comparisons may show the amphiphiles as same as in Morgellons.
skyship
www.youtube.com/watch?v=tmSn0na-i-w
=========================
Many things mentioned in this video:
MCM-41:
encrypted.google.com/search?q=MCM-41&tbm=isch&tbo=u&source=univ&sa=X&ei=ppL0Ute6N8KIyAGJjIGAAw&ved=0CDEQsAQ&biw=833&bih=436
Polymer Fiber 3D Prints into filaments, fuses organic:]there is a 2 photon polymerizatin that involves non natured states of protein. 15N and 13C photons are related to proteins. So must utilize the nucelated ice protein in Pseudomonos Syringae.
photoblog.nbcnews.com/_news/2012/03/31/10959909-3d-printer-prints-sand-grain-size-models-at-record-speed?lite
Living, 3D-printed cyborg ear: Promising, but eww
arstechnica.com/science/2013/08/living-3d-printed-cyborg-ear-promising-but-eww/
Also mentioned in video:
DU: depleted uranium
Methane
Pseudomonos Syringae
Polymer produced nanites
Nano
Nucleated protein from pseudomonos syringae:
It cannot snow on cue for the purposes of a winter scene on a film set. The answer, as we all know, is artificial snow. Artificial snow has been on the scene for some years now and is quite extensively used in the States, as in Europe, to satisfy tourists on skis besides the film industry.
A number of methods are used to make snowflakes out of water. One of which uses the abilities of bacteria such as Pseudomonas syringae. This little critter can initiate crystallization at temperatures as high as –3° C. High? Yes, –3° C is warm for ice formation considering that pure water only crystallizes at temperatures as low as –40°C! How does P.syringae do it? Well, in its membrane is lodged a protein – known as the ice nucleation protein (INP) – which is at the heart of ice nucleation. Precisely. The protein’s structure is such that it could well act as a template for the ice nucleation process by mimicking the pattern of an ice crystal lattice.
Why bacteria sport INPs in the first place is a mystery. Would it be for some kind of protection? It is difficult to grasp how the process of freezing could protect an organism in the first place. However, whatever secret purpose may lurk behind ice nucleation promoted by bacteria, INPs are certainly serving the interests of a certain number of humans in their pursuit of pleasure and consumption, be it for the purposes of entertainment, sport or perhaps, with time, even frozen foods.
Ice nucleation protein, Pseudomonas syringae : P06620
<http://web.expasy.org/spotlight/snapshots/001/>
=============================
www.uniprot.org/uniprot/P06620
==============================
Much more to look up and comparisons may show the amphiphiles as same as in Morgellons.
skyship