1 result for (book:ur1 AND session:688 AND stemmed:"black hole")
[... 12 paragraphs ...]
(10:04.) No energy is ever lost. It may seem to disappear from one system, but if so, it will emerge in another. The inward and outward thrust that is not perceived is largely responsible for what you think of as ordinary consecutive time. (Pause.3) It is of the utmost and supreme importance, of course, that these CU’s are literally indestructible. They can take any form, organize themselves in any kind of time-behavior, hyphen, and seem to form a reality that is completely dependent upon its apparent form and structure. Yet, disappearing through one of the physicists’ black holes,4 for example, though structure and form would seem to be annihilated and time drastically altered, there would be an emergence at the other end, where the whole “package of a universe,” having been closed in the black hole, would be reopened.
There is the constant surge into your universe of new energy through infinite minute sources. The sources are the CU’s themselves. In their own way, and using an analogy, now, in certain respects at least the CU’s operate as minute but extremely potent black holes and white holes, as they are presently understood by your physicists. Give us a moment …
The CU’s, following that analogy, serve as source points or “holes” through which energy falls into your system, or is attracted to it — and in so doing, forms it. The experience of forward time and the appearance of physical matter in space and time, and all the phenomenal world, results. As CU’s leave your system, time is broken down. Its effects are no longer experienced as consecutive, and matter becomes more and more plastic until its mental elements become apparent. New CU’s enter and leave your system constantly, then. Within the system en masse, however, through their great and small organizational structures, the CU’s are aware of everything happening — not only on the top of the moment (gesturing), but within it in all of its probabilities.
[... 36 paragraphs ...]
4. A typical black hole, according to predictions made by Einstein in his theory of gravity, is thought to be the collapsed remnants of a giant star that’s used up all of its nuclear energy. Its density is unimaginably great, its gravity so powerful that not even light can escape from it. Hence, such an object is invisible, forming a “hole” in space.
(Yet, it has been proposed that some light radiation might escape from the “event horizon” just above, or surrounding, the black hole, and that eventually this radiation may be detected with more advanced satellite equipment. Seth hasn’t commented one way or the other on such theoretical attributes of black holes.)
See the 593rd session in the Appendix of Seth Speaks, where Seth briefly discusses both black holes and their suggested counterparts, white holes.
[... 7 paragraphs ...]