How water is protected by the Sun and the Earth.
by Henryk Szubinski
by Henryk Szubinski
first, the concept of the magnetosphere and then the topic of magnetic water.
from Wikipedia
date 2018
June 9
time, 13:54
A magnetosphere is the region of space surrounding an astronomical object in which charged particles are manipulated or affected by that object's magnetic field.[1][2] It is created by planets having active hot iron and nickel or metallic cores, whose motion generated a planetary magnetic field, but such fields can also occur in stars by the interactions of plasma.
In the space environment close to a planetary body, the magnetic field resembles a magnetic dipole. Further out, field lines can be significantly distorted by the flow of electrically conducting plasma, as emitted from the Sun or a nearby star. e.g. the solar wind.[3][4] Planets having active magnetospheres, like the Earth, are capable of mitigating or blocking the effects of solar radiation or cosmic radiation, that also protects all living organisms from potentially detrimental and dangerous consequences. This is studied under the specialized scientific subjects of plasma physics, space physics and aeronomy.
Bow shock
Infrared image and artist's concept of the bow shock around R Hydrae
Main article: Bow shock
The bow shock forms the outermost layer of the magnetosphere; the boundary between the magnetosphere and the ambient medium. For stars, this is usually the boundary between the stellar wind and interstellar medium; for planets, the speed of the solar wind there decreases as it approaches the magnetopause.[6]
Magnetosheath
Main article: Magnetosheath
The magnetosheath is the region of the magnetosphere between the bow shock and the magnetopause. It is formed mainly from shocked solar wind, though it contains a small amount of plasma from the magnetosphere.[7] It is an area exhibiting high particle energy flux, where the direction and magnitude of the magnetic field varies erratically. This is caused by the collection of solar wind gas that has effectively undergone thermalization. It acts as a cushion that transmits the pressure from the flow of the solar wind and the barrier of the magnetic field from the object.[4]
Magnetopause
Main article: Magnetopause
The magnetopause is the area of the magnetosphere wherein the pressure from the planetary magnetic field is balanced with the pressure from the solar wind.[3] It is the convergence of the shocked solar wind from the magnetosheath with the magnetic field of the object and plasma from the magnetosphere. Because both sides of this convergence contain magnetized plasma, the interactions between them are complex. The structure of the magnetopause depends upon the Mach number and beta of the plasma, as well as the magnetic field.[8] The magnetopause changes size and shape as the pressure from the solar wind fluctuates.[9]
Magnetotail
Opposite the compressed magnetic field is the magnetotail, where the magnetosphere extends far beyond the astronomical object. It contains two lobes, referred to as the northern and southern tail lobes. Magnetic field lines in the northern tail lobe point towards the object while those in the southern tail lobe point away. The tail lobes are almost empty, with few charged particles opposing the flow of the solar wind. The two lobes are separated by a plasma sheet, an area where the magnetic field is weaker, and the density of charged particles is higher.[10
HOW THE MAGNETOSPHERE makes SPHERES.
from:
aip.scitation.org/doi/10.1063/1.1711058
date 2018
June 9
time, 13:59
ABSTRACT
Some numerical solutions are presented which describe the flow in the vicinity of a collapsing spherical bubble in water. The bubble is assumed to contain a small amount of gas and the solutions are taken beyond the point where the bubble reaches its minimum radius up to the stage where a pressure wave forms which propagates outwards into the liquid. The motion during collapse, up to the point where the minimum radius is attained, is determined by solving the equations of motion both in the Lagrangian and in the characteristic form. These are found to be in good agreement with each other and also with the approximate theory of Gilmore which is shown to be accurate over a wide range of Mach number. The liquid flow during the rebound, which occurs after the minimum radius has been attained, is determined from a solution of the Lagrangian equations. It is shown that an acoustic approximation is valid even for fairly high pressures, and this fact is used to determine the peak intensity of the pressure wave as it moves outwards at a distance from the center of collapse. It is estimated in the case of typical cavitation bubbles that such intensities are sufficient to cause cavitation damage.
from:
www.cavitar.com/deconvolution-acoustically-detected-bubble-collapse-shockwaves/
date 2018
June 9
time, 14:03
When detecting a broadband acoustic signal with a hydrophone, artifacts arising from the convolution the will manifest. This is of particular importance for bubble collapse shock waves as both an apparent negative phase and the peak positive pressure amplitude or incorrectly measured if the signal is not deconvolved. Using high-speed imaging, the collapse of a laser induced bubble is observed, with the subsequent emission of a shock wave. The shock wave is detected by a needle hydrophone at three distances, in which experimental results are compared to theoretical predictions of the shock wave properties. To achieve this the capability of performing unprecedented shadowgraphic imaging of the bubble collapse was paramount, both for controlling the bubble size and a spherical rebound after the collapse. The high speed observation was also used to guide the simulation of the theoretical prediction.
This then, as the BUBBLES THAT ARE CREATED in the SOLAR WIND that create spheres around water volumes as they are displaced with the MAGNETOSPHERE out into space, much like the SUN displacing BUCKETS to the Earth where the water evaporation from the Earth's own magnetosphere combine to input the water into 2 buckets on either side so as to keep in the water as it displaces to other solar systems or even galaxies.
The bubbles are protected so that when they displace they do not evaporate.
This function also includes the human body as the prefect example of keeping
the water in the body so that motion bounce and motion absorbed are symbiotic
in relation to the volume of the human body and it's ability to keep water even when
temperatures are high and the body is in the orbit in space where it is exposed to
solar rays.
free wallpaper.
from:
www.cavitar.com/deconvolution-acoustically-detected-bubble-collapse-shockwaves/
date 2018
June 9
time, 14:03
When detecting a broadband acoustic signal with a hydrophone, artifacts arising from the convolution the will manifest. This is of particular importance for bubble collapse shock waves as both an apparent negative phase and the peak positive pressure amplitude or incorrectly measured if the signal is not deconvolved. Using high-speed imaging, the collapse of a laser induced bubble is observed, with the subsequent emission of a shock wave. The shock wave is detected by a needle hydrophone at three distances, in which experimental results are compared to theoretical predictions of the shock wave properties. To achieve this the capability of performing unprecedented shadowgraphic imaging of the bubble collapse was paramount, both for controlling the bubble size and a spherical rebound after the collapse. The high speed observation was also used to guide the simulation of the theoretical prediction.
This then, as the BUBBLES THAT ARE CREATED in the SOLAR WIND that create spheres around water volumes as they are displaced with the MAGNETOSPHERE out into space, much like the SUN displacing BUCKETS to the Earth where the water evaporation from the Earth's own magnetosphere combine to input the water into 2 buckets on either side so as to keep in the water as it displaces to other solar systems or even galaxies.
The bubbles are protected so that when they displace they do not evaporate.
This function also includes the human body as the prefect example of keeping
the water in the body so that motion bounce and motion absorbed are symbiotic
in relation to the volume of the human body and it's ability to keep water even when
temperatures are high and the body is in the orbit in space where it is exposed to
solar rays.
free wallpaper.