JGeropoulas
The Living Force
Scientists believe this be either a gas giant planet like Jupiter, or a low-mass brown dwarf.
7-4-1998 Session
Q: (A) I am trying to write down some things about a cosmology, and I have some questions mainly about the coming events. First there was the story of the sun's companion brown star which is apparently approaching the solar system, and I would like to know, if possible, details of its orbit; that is, how far it is, what is its speed, and when it will be first seen. Can we know it? Orbit: how close will it come?
A: Flat elliptical.
...
Q: (L) What is the closest it could come to earth... (A) Solar system... (L) Yes, but which part of the solar system? We have nine planets... which one? (A) I understand that this brown star will enter the Oort cloud... (L) I think they said it just brushes against it and the gravity disturbs it...
A: Passes through Oort cloud on orbital journey. Already has done this on its way "in."
Q: (A) You mean it has already entered the Oort cloud?
A: Has passed through.
Q: (A) So, it will not approach...
A: Oort cloud is located on outer perimeter orbital plane at distance of approximately averaged distance of 510,000,000,000 miles.
Q: (L) Well, 510 billion miles gives us some time! (A) Yes, but what I want to know... this Oort cloud is around the solar system, so this brown star, once it has passed through... (L) It must already be in the solar system? (A) No, it could have passed through and may not come closer. Is it coming closer or not? Is it coming closer all the time?
A: Solar system, in concert with "mother star," is revolving around companion star, a "brown" star.
Q: (A) So, that means that the mass of the companion star is much...
A: Less.
Q: (A) Less?
A: They are moving in tandem with one another along a flat, elliptical orbital plane. Outer reaches of solar system are breached by passage of brown companion, thus explaining anomalies recently discovered regarding outer planets and their moons.
Q: (A) But I understand that the distance that the distance between the sun and this brown star is changing with time. Elliptical orbit means there is perihelion and aphelion. I want to know what will be, or what was, or what is the closest distance between this brown star and the sun? What is perihelion? Can we know this, even approximately. Is it about one light year, or less or more?
A: Less, much less. Distance of closest passage roughly corresponds to the distance of the orbit of Pluto from Sun.
Q: (A) Okay. Now, this closest pass, is this something that is going to happen?
A: Yes.
Q: (A) And it is going to happen within the next 6 to 18 years?
A: 0 to 14.
Q: (A) Okay, that's it. I have some idea about this. Now, I understand that, either by chance or by accident, two things are going to happen at essentially the same time. That is the passing of this brown star, and this comet cluster. These are two different things?
A: Yes. Different, but related.
Q: (L) Is there a comet cluster that was knocked into some kind of orbit of its own, that continues to orbit...
A: Yes.
Q: (L) And in addition to that comet cluster, there are also additional comets that are going to get whacked into the solar system by the passing of this brown star?
A: Yes.
Q: (A) I understand that the main disaster is going to come from this comet cluster...
A: Disasters involve cycles in the human experiential cycle which corresponds to the passage of comet cluster.
THE SUN’S BROWN DWARF TWIN STAR DESCRIBED THE C’S (7-3-98 SESSION) | |
Miles away from Earth in 1998 | 510,000,000,000 miles |
Miles traveled from 1998-2024 | 22,776,000,000 miles |
Miles away from Earth in 2024 | 487,224,000,000 miles |
Closest it will come to Earth (=distance of Pluto from Sun) | 3,700,000,000 miles |
Distance remaining before closest to Earth | 483,524,000,000 miles |
| |
BROWN DWARF DESCRIBED IN THIS VIDEO | |
Miles traveled per hour (it’s speed) | 1,000,000 miles |
Miles traveled per day | 24,000,000 miles |
Miles traveled per year | 876,000,000 miles |
Time remaining before closest to Earth (per C’s above) | 552 years |
| |
CONCLUSION | |
This is not our sun’s brown dwarf twin star because: 1) Ours must be either faster, closer (or both) than this one since the C’s indicate we will see it sooner than the 552 years needed for this one to reach the closest point. 2) There’s a theory that this object is a brown star whose twin star (which would be our sun) exploded as a super nova and sent it hurling through space. |
Or you can just select dark text to invert its color.Sadly I have to turn off dark mode to read your post...
Oh yeah that works, thanks.Or you can just select dark text to invert its color.
I highlighted two things in your table of calculations. Where did you get the number Miles traveled from 1998-2024 22,776,000,000 miles. I don't see anywhere in the 7-4-1998 Session where the speed of the sun's companion is mentioned. Also in the 7-4-1998 session they say it has already passed through the Oort cloud in 1998, that could mean it passed through the Oort cloud 30 years prior to 1998. We don't know when that happened other than in 1998 it had been an event that already occurred.Based on the information in the session above, here's some calculations and thoughts about this object:
THE SUN’S BROWN DWARF TWIN STAR DESCRIBED THE C’S (7-3-98 SESSION)Miles away from Earth in 1998 510,000,000,000 milesMiles traveled from 1998-2024 (Where does this come from?) 22,776,000,000 milesMiles away from Earth in 2024 487,224,000,000 milesClosest it will come to Earth (=distance of Pluto from Sun) 3,700,000,000 milesDistance remaining before closest to Earth 483,524,000,000 miles BROWN DWARF DESCRIBED IN THIS VIDEO Miles traveled per hour (it’s speed) 1,000,000 milesMiles traveled per day 24,000,000 milesMiles traveled per year ( I think this is off by a factor of 10, should be 8,760,000,000 ) 876,000,000 milesTime remaining before closest to Earth (per C’s above) 552 years CONCLUSION This is not our sun’s brown dwarf twin star because:
1) Ours must be either faster, closer (or both) than this one since the C’s indicate we will see it sooner than the 552 years needed for this one to reach the closest point.
2) There’s a theory that this object is a brown star whose twin star (which would be our sun) exploded as a super nova and sent it hurling through space.
Thanks for the corrections. It was late and my calculator couldn't handle enough zeros so confusion was inevitable Here's the revised version of my earlier info.I highlighted two things in your table of calculations. Where did you get the number Miles traveled from 1998-2024 22,776,000,000 miles. I don't see anywhere in the 7-4-1998 Session where the speed of the sun's companion is mentioned. Also in the 7-4-1998 session they say it has already passed through the Oort cloud in 1998, that could mean it passed through the Oort cloud 30 years prior to 1998. We don't know when that happened other than in 1998 it had been an event that already occurred.
And I think you are off by a factor of 10 in the 'Miles traveled per year' in the Brown dwarf video info.
THE SUN’S BROWN DWARF TWIN STAR DESCRIBED THE C’S (7-3-98 SESSION) | |
Miles away from Earth in 1998 (likely less, since it had already passed through Oort Cloud) | ≤ 510,000,000,000 miles |
Miles traveled from 1998-2024 (if using the speed of brown dwarf in video) | 227,760,000,000 miles |
Miles away from Earth in 2024 (if using the speed of brown dwarf in video) | ≤ 282,240,000,000 miles |
Closest it will come to Earth (distance of Pluto from Sun) | 3,700,000,000 miles |
Distance remaining before closest to Earth | ≤ 278,540,000,000 miles |
| |
BROWN DWARF DESCRIBED IN THIS VIDEO | |
Miles traveled per hour (it’s speed) | 1,000,000 miles |
Miles traveled per day | 24,000,000 miles |
Miles traveled per year | 8,760,000,000 miles |
Time remaining before closest to Earth (IF traveling from Oort Cloud towards earth; BUT video doesn't give trajectory, so can't calculate this) | 32 years |
| |
CONCLUSION | |
This may not be our sun’s brown dwarf twin star because: 1) Ours would have to be either faster, closer (or both) than this one if we are to see it sooner than the 32 years needed for this one to reach the closest point. 2) There’s a theory that this object is a brown star whose twin star (which would be our sun) exploded as a super nova and sent it hurling through space. |
SPEED (miles per hour) | CALCULATIONS | |
Sound | 9,104 | Wiki says sound travels 4.69 meters per second(60 seconds)(60 minutes)=14,648,400 meters per hour÷1609 meters per mile=9,104 miles per hour |
Shrapnel | 22,374 | Wiki table lists 10,000 meters per second(60 seconds)(60 minutes)=36,000,000 meters per hour÷1609 meters per mile=22,374 miles per hour |
Object in video | 1,000,000 | |
Light | 670,760,005 | Wiki says light travels 299,792,458 meters per second(60 seconds)(60 minutes)=1,079,252,848,800 meters per hour÷1609 meters per mile=670,760,005 miles per hour |
The Sun is traveling at 500,000 miles per hour around the center of the galaxy, so the speed of this object does not seem that extraordinary.I was trying to grasp a speed of 1,000,000 miles per hour (the speed of the object in the video).
It depends on whether that object moves at 1,000,000 mph in relation to us or in relation to the core of the galaxy - speed in space is relative to what you compare it to. The comet speeds are given in relation to us, but these comets also travel around the galaxy core along with us at about 500,000 mph.Well it seems extraordinary when you consider the speed of comets ranges from 33,600 to 224,000 miles per hour.