Kash's Experience

[Guest guest]

, Sambhav

<maddy7_maddy7 wrote:

>

> Hi jagbir

>

> I was going through the pages of the Treasure adishakti.com and

> came to this page : http://adishakti.org/his_universe_within.htm

> which tells about how Kash's experience as He was told to look at

> each page and point out the celestial bodies he had seen in his

> mystic journeys as he " traveled across the universe with Shri

> Mataji, and reminded to be sure that they matched. "

>

> I was reading this page in my Office and vibrations started

> flowing throughout my body. Please can you post the complete

> experience of Kash as how he went with mother, met other daties

> and saw the Universe.

>

> Thanks

>

>

 

Visions Of The Universe: Kazuaki Iwasaki

 

On August 20, 1995, at the home of Sahaja Yogi, Dattatreya, in

Maine, USA, Kash was shown the book Visions of the Universe

containing vivid and strikingly realistic paintings of the planets

in the universe by Japanese master painter, Kazuaki Iwasaki. (The

text is by Isaac Asimov and preface by Carl Sagan.) He was told to

look at each page and point out the celestial bodies he had seen in

his mystic journeys as he traveled across the universe with Shri

Mataji, and reminded to be sure that they matched.

 

He identified the following planets as he traveled with Shri Visva-

Dharini Devi in the universe within the Sahasrara within himself:

 

The Earth looks as that on page 17. He is sure as he had seen it

from outer space while descending upon it with the Great Adi Shakti

on 1994-04-30.

 

Earth is the third planet in distance outward from the Sun. It is

the only planetary body in the solar system that has conditions

suitable for life, at least as known to modern science.

Gravitational forces have molded the earth, like all celestial

bodies, into a spherical shape. However, the earth is not an exact

sphere, being slightly flattened at the poles and bulging at the

equator. The earth is surrounded by an envelope of gases called the

atmosphere, of which the greater part is nitrogen and oxygen.

(Columbia Electronic Encyclopedia)

 

The moon was similar to that on page 19 but not as in page 22 (below); he has

seen the moon from a distance as that depicted on page 19 above. Page 22 shows

the surface of the moon from close-up, but he never came that close to it.

 

The moon is the earth's nearest neighbor in space. In addition to

its proximity, the moon is also exceptional in that it is quite

massive compared to the earth itself, the ratio of their masses

being far larger than the similar ratios of other natural satellites

to the planets they orbit with the exception of Charon and Pluto.

(Columbia Electronic Encyclopedia)

 

The Moon, of course, has been known since prehistoric times. It is

the second brightest object in the sky after the Sun. As the Moon

orbits around the Earth once per month, the angle between the Earth,

the Moon and the Sun changes; we see this as the cycle of the Moon's

phases. The time between successive new moons is 29.5 days (709

hours), slightly different from the Moon's orbital period (measured

against the stars) since the Earth moves a significant distance in

its orbit around the Sun in that time.

 

Mars looked identical to that of pages 25.

 

Mars has a striking red appearance, and in its most favorable

position for viewing, when it is opposite the sun, it is twice as

bright as Sirius, the brightest star. Mars has a diameter of 4,200

mi (6,800 km), just over half the diameter of the earth, and its

mass is only 11% of the earth's mass. The planet has a very thin

atmosphere consisting mainly of carbon dioxide, with some nitrogen

and argon. Mars has an extreme day-to-night temperature range,

resulting from its thin atmosphere, from about 80°F (27°C) at noon

to about -100°F (-73°C) at midnight; however, the high daytime

temperatures are confined to less than 3 ft (1 m) above the surface.

(Columbia Electronic Encyclopedia)

 

Jupiter is similar as depicted on page 27.

 

Jupiter is the fourth brightest object in the sky (after the Sun,

the Moon and Venus; at some times Mars is also brighter). It has

been known since prehistoric times. Galileo's discovery, in 1610, of

Jupiter's four large moons known as the Galilean moons was the first

discovery of a center of motion not apparently centered on the

Earth. It was a major point in favor of Copernicus's heliocentric

theory of the motions of the planets; Galileo's outspoken support of

the Copernican theory got him in trouble with the Inquisition.

 

The asteroids were similar as those on page 34. However, they are of

various shapes and size. (Painting is that of Saturn with an outer

ring made up of bits of particles.)

 

On the first day of January 1801, Giuseppe discovered an object

which he first thought was a new comet. But after its orbit was

better determined it was clear that it was not a comet but more like

a small planet. Piazzi named it Ceres, after the Sicilian goddess of

grain. Three other small bodies were discovered in the next few

years (Pallas, Vesta, and Juno). By the end of the 19th century

there were several hundred.

 

Several hundred thousand asteroids have been discovered and given

provisional designations so far. Thousands more are discovered each

year. There are undoubtedly hundreds of thousands more that are too

small to be seen from the Earth. There are 26 known asteroids larger

than 200 km in diameter. Our census of the largest ones is now

fairly complete: we probably know 99% of the asteroids larger than

100 km in diameter. Of those in the 10 to 100 km range we have

cataloged about half. But we know very few of the smaller ones;

perhaps as many as a million 1 km sized asteroids may exist.

 

Asteroid, planetoid, or minor planet, small body orbiting the sun.

More than 10,000 asteroids have orbits sufficiently well known to

have been cataloged and named; thousands more exist. Most asteroids

are irregularly shaped, unlike the spherically shaped major planets.

The largest asteroid, Ceres, has a diameter of c.630 mi (1000 km);

the three next largest are Pallas, Vesta, and Juno. Only Vesta can

be seen with the naked eye. Many asteroids are no larger than a few

kilometers; in 1991, an asteroid only 33 ft (10 m) in diameter was

found. Many asteroids are so small that their sizes cannot be

measured directly; in many cases, their sizes have been estimated

from their brightness and distances. (Columbia Electronic

Encyclopedia)

 

Pluto was exactly as shown on page 38. The reason he is so sure is

the lack of detail when one passes Pluto on the night-side, with

only a thin crescent illuminated by the very distant sun.

 

Pluto, in astronomy, the 9th and most distant known planet from the

sun, with an elliptical orbit usually lying beyond that of Neptune.

Pluto's mean distance from the sun is 3.67 billion mi (5.91 billion

km), and its period of revolution is about 248 years. Since Pluto

has the most elliptical and tilted orbit of any planet

(eccentricity .250, inclination 17°), at its closest point to the

sun it passes inside the orbit of Neptune; between 1979 and 1999 it

was closer to the sun than Neptune was. It will remain farther from

the sun for 220 years, when it will again pass inside Neptune's

orbit. Its surface consists largely of frozen nitrogen. It is

thought to have a rocky, silicate core; its thin atmosphere probably

contains nitrogen, carbon monoxide, and methane. Its surface

temperature is estimated to be about -360°F (-218°C), a temperature

at which most gases exist in the frozen state. (Columbia Electronic

Encyclopedia)

 

Pluto's composition is unknown, but its density (about 2 gm/cm3)

indicates that it is probably a mixture of 70% rock and 30% water

ice much like Triton. The bright areas of the surface seem to be

covered with ices of nitrogen with smaller amounts of (solid)

methane, ethane and carbon monoxide. The composition of the darker

areas of Pluto's surface is unknown but may be due to primordial

organic material or photochemical reactions driven by cosmic rays.

 

Little is known about Pluto's atmosphere, but it probably consists

primarily of nitrogen with some carbon monoxide and methane. It is

extremely tenuous, the surface pressure being only a few microbars.

Pluto's atmosphere may exist as a gas only when Pluto is near its

perihelion; for the majority of Pluto's long year, the atmospheric

gases are frozen into ice. Near perihelion, it is likely that some

of the atmosphere escapes to space perhaps even interacting with

Charon. The Pluto Express mission planners want to arrive at Pluto

while the atmosphere is unfrozen.

 

The Orion Nebula matched that of page 39.

 

Orion the Hunter is perhaps the best known constellation in the sky,

well placed in the evening at this time of the year for observers in

both the northern and southern hemispheres, and instantly

recognisable. And for astronomers, Orion is surely one of the most

important constellations, as it contains one of the nearest and most

active stellar nurseries in the Milky Way, the galaxy in which we

live.

 

Here tens of thousands of new stars have formed within the past ten

million years or so - a very short span of time in astronomical

terms. For comparison: our own Sun is now 4,600 million years old

and has not yet reached half-age. Reduced to a human time-scale,

star formation in Orion would have been going on for just one month

as compared to the Sun's 40 years.

 

Just below Orion's belt, the hilt of his sword holds a great jewel

in the sky, the beautiful Orion Nebula. Bright enough to be seen

with the naked eye, a small telescope or even binoculars show the

nebula to be a few tens of light-years' wide complex of gas and

dust, illuminated by several massive and hot stars at its core, the

famous Trapezium star. It is located near the middle of the " sword

hanging from Orion's " belt of stars. Its central bright region is

about 1° in diameter and it has a total extension of 3°. It is about

1,000 light-years distant and as many as 60 light-years in diameter.

The nebula is an enormous cloud of gas surrounding a cluster of very

hot young stars. To the naked eye the nebula appears to be a faint

star but becomes a vague patch of light when viewed through

binoculars. The bright region is divided into two sections, the

northeast portion being cataloged separately as M43 or NGC 1982. The

Orion Nebula is the nearest major site to earth of massive star

formation.

 

The Black Hole was like that of page 43. Kash is very sure as the

Great Cosmic Mother took him through it on his first visit to Shri

Ganesha.

 

Black hole, in astronomy, celestial object of such extremely intense

gravity that it attracts everything near it and in some instances

prevents everything, including light, from escaping. The term was

first used in reference to a star in the last phases of

gravitational collapse by the American physicist John A. Wheeler.

 

Gravitational collapse begins when a star has depleted its steady

sources of nuclear energy and can no longer produce the expansive

force, a result of normal gas pressure, that supports the star

against the compressive force of its own gravitation. As the star

shrinks in size (and increases in density), it may assume one of

several forms depending upon its mass. . . .

 

Because light and other forms of energy and matter are permanently

trapped inside a black hole, it can never be observed directly.

However, a black hole could be detected by the effect of its

gravitational field on nearby objects (e.g., if it is orbited by a

visible star), during the collapse while it was forming, or by the X

rays and radio frequency signals emitted by rapidly swirling matter

being pulled into the black hole. A small number of possible black

holes have been detected, although none of the discoveries has been

conclusive. (Columbia Electronic Encyclopadia)

 

The galaxy was alike that of page 45, but there are countless others

in the universe.

 

The Milky Way is the galaxy which is the home of our Solar System

together with at least 200 billion other stars and their planets,

and thousands of clusters and nebulae including at least almost all

objects of Messier's catalog which are not galaxies on their own.

All the objects in the Milky Way Galaxy orbit their common center of

mass, called the Galactic Center.

 

As a galaxy, the Milky Way is actually a giant, as its mass is

probably between 750 billion and one trillion solar masses, and its

diameter is about 100,000 light years. Radio astronomial

investigations of the distribution of hydrogen clouds have revealed

that the Milky Way is a spiral galaxy of Hubble type Sb or Sc.

Therefore, out galaxy has both a pronounced disk component

exhibiting a spiral structure, and a prominent nuclear reagion which

is part of a notable bulge/halo component.

 

Kash has also seen Venus, Mercury and the Sun but they are not

similar to that in Visions of the Universe, which depict the surface

area of these planets. But they do look familiar as he often saw

them from a distance as he traveled across the Universe with the

Great Adi Shakti Shri Mataji Nirmala Devi to visit the Divine

Messengers.

 

If Kash were to ever defend himself against scientific skeptics and

disbelieving humans the words of Jodie Foster in the film Contact

would be most appropriate:

 

" I had an experience. I can't prove that. I can't just explain it

but everything that I know as a human being, everything that I am,

tells me that it was real. I was given something wonderful,

something that changed me forever, a vision of the universe that

tells us undeniably how tiny and insignificant and how rare and

precious we all are, a vision that tells us that we belong to

something that is greater than ourselves, that we are not, that we

are not alone.

 

I wish I could share that. I wish that everyone, even for one

moment, could feel that awe and humility and the hope. "

 

Jodie Foster, Contact (1997)