The Maya of Science
When Albert
Einstein published his ‘General Theory of Relativity’ in 1916, it
revolutionized the way physics looked at the world and it began a
massive change in the way science understands reality.
The
two aspects of relativity theory that triggered the change were
Einstein's insights into the nature of time and his prediction of the
existence of Black Holes. Time, like the external world, was something
everybody experienced but its nature was something of a mystery.
Einstein discovered it didn't exist in its own right as something
distinct and separate. Instead, his mathematics told him that time was
just an aspect of what we'd always thought of as space. So born was the
term, 'spacetime continuum', which indicated that space and time could
no longer be considered different things but were actually parts of a
greater unit. This meant that one part of our experience - time - was
not only indirect but it was wrong outright.
Since the days of Isaac Newton, gravity had been associated with matter. Wherever you had a lump of matter anywhere in the universe, you had gravity as well. The bigger the lump, the greater the gravity. What Einstein's investigations showed was that when you had a really big lump of matter - more than three times bigger than our sun - the gravity associated with it would be so strong that the matter would begin to collapse in on itself. Einstein's calculations showed that if the original lump of matter was big enough, the lump didn't end up smaller and more compact but instead disappeared altogether. In its place you had a sort of gravity well, an area of space where gravity was so powerful it sucked everything in from its immediate surroundings...even light. This cosmic vacuum cleaner was quickly dubbed a Black Hole.
Einstein's calculations indicated that if you could pass through a Black Hole, you would enter a completely new spacetime continuum...a parallel universe. Although the discovery totally annihilated our commonsense view of reality, back in 1916 it was little more than a mathematical construct that had little to do with the price of beans. So people in time slowly slid back into the old habit of thinking of reality as the objective world, the one that they could see, touch and feel with their senses.
to be continued...
Magical use of Thought Forms
Dolores Ashcroft-Nowicki, J.H. Brennan
Since the days of Isaac Newton, gravity had been associated with matter. Wherever you had a lump of matter anywhere in the universe, you had gravity as well. The bigger the lump, the greater the gravity. What Einstein's investigations showed was that when you had a really big lump of matter - more than three times bigger than our sun - the gravity associated with it would be so strong that the matter would begin to collapse in on itself. Einstein's calculations showed that if the original lump of matter was big enough, the lump didn't end up smaller and more compact but instead disappeared altogether. In its place you had a sort of gravity well, an area of space where gravity was so powerful it sucked everything in from its immediate surroundings...even light. This cosmic vacuum cleaner was quickly dubbed a Black Hole.
Einstein's calculations indicated that if you could pass through a Black Hole, you would enter a completely new spacetime continuum...a parallel universe. Although the discovery totally annihilated our commonsense view of reality, back in 1916 it was little more than a mathematical construct that had little to do with the price of beans. So people in time slowly slid back into the old habit of thinking of reality as the objective world, the one that they could see, touch and feel with their senses.
to be continued...
Magical use of Thought Forms
Dolores Ashcroft-Nowicki, J.H. Brennan
No comments:
Post a Comment