Zeroids: Living beings which inhabit the cosmic void.
Bioforms which may populate the recesses of free space.
This domain is characterized by virtually zero temperature and zero atmospheric pressure.
Russian astrophysicist Dr. V.l. Goldanskii argued that appreciable quantities of prebiotic material should be able to accumulate in the regions surrounding nebulae, or titanic gas clouds.
Already dozens of organic compounds have been identified in space, including formaldehyde, prussic acid, and cellulose. In short, there is an abundance of basic building blocks out there to allow for the evolution of zeroids.
Zeroids may range in dimensionality from the microscopic to the macroscopic and they vary from the utterly simple to the extraordinarily complex and they may live singly or in vast colonies.
Zeroids may have migrated to all sectors of space -- both within and without galaxies. Endowed with both mobility and intelligence, it is conceivable that some may have actually penetrated our zone of existence.
Atmospheric friction might parboil some zeroids to cinders, and our planet's gases and temperature might prove lethal to still others.
Yet, some may have evolved a protective shield -- either physical or electromagnetic in nature -- that has enabled them to survive entry into our domain.
Here is evidence (video) from NASA. Life - Zeroids (extremophiles) can survive in outer space.
WATCH THE VIDEO:
SOURCE
Bioforms which may populate the recesses of free space.
This domain is characterized by virtually zero temperature and zero atmospheric pressure.
Russian astrophysicist Dr. V.l. Goldanskii argued that appreciable quantities of prebiotic material should be able to accumulate in the regions surrounding nebulae, or titanic gas clouds.
Already dozens of organic compounds have been identified in space, including formaldehyde, prussic acid, and cellulose. In short, there is an abundance of basic building blocks out there to allow for the evolution of zeroids.
Zeroids may range in dimensionality from the microscopic to the macroscopic and they vary from the utterly simple to the extraordinarily complex and they may live singly or in vast colonies.
Zeroids may have migrated to all sectors of space -- both within and without galaxies. Endowed with both mobility and intelligence, it is conceivable that some may have actually penetrated our zone of existence.
Atmospheric friction might parboil some zeroids to cinders, and our planet's gases and temperature might prove lethal to still others.
Yet, some may have evolved a protective shield -- either physical or electromagnetic in nature -- that has enabled them to survive entry into our domain.
Here is evidence (video) from NASA. Life - Zeroids (extremophiles) can survive in outer space.
WATCH THE VIDEO:
SOURCE