| Why time slows with gravity and in motion? My concepts |
Slowing of Time in gravity
Gravitons radiated (due to expansion of space) by celestial bodies
interact with space producing slower expansion. If time (Motion and
Forces) is due to the expansion (stretching) of space then time will slow
where expansion of space is slower as around large celestial bodies.
Gravitational acceleration is the result of time differential and does not
slow time as commonly believed. Einstein's equivalence principle which
compares gravitational acceleration to accelerated motion may give an
incorrect impression that slowing of time is related to acceleration. This
is not true. Acceleration gravitational or otherwise does not cause time
dilation. This is discussed in more detail under twin paradox.
Gravitons radiated (due to expansion of space) by celestial bodies
interact with space producing slower expansion. If time (Motion and
Forces) is due to the expansion (stretching) of space then time will slow
where expansion of space is slower as around large celestial bodies.
Gravitational acceleration is the result of time differential and does not
slow time as commonly believed. Einstein's equivalence principle which
compares gravitational acceleration to accelerated motion may give an
incorrect impression that slowing of time is related to acceleration. This
is not true. Acceleration gravitational or otherwise does not cause time
dilation. This is discussed in more detail under twin paradox.
Slowing of Time in motion.
Expansion of space imparts motion and forces that is equal to
the total energy in a given mass. Let us consider that the
amount of energy i.e. total motion and forces imparted by
expansion of space is a constant =mc2.
Keeping this in mind let us see what happens when an object is
accelerated. To increase the velocity of an object we have to
apply force. The force changes the way space acts on that
object. The object interacts with space and the expansion of
space slows in front of object and becomes faster behind the
object. As time is related to expansion of space this sets up a
time differential perpetuating the motion.
Now the expanding space is causing this mass to move linearly
as well. The total amount of motion (imparted by the
expanding space) to an object is a constant, therefore as the
external or linear motion increases the internal motion of atoms
and the forces decrease proportionally. The reduced internal
motion is the observed slowing of time. The force applied to
accelerate the object only increased its mass. This observation
is clearly supported by the equations of motion.
The above concepts are precisely mathematically correct. For
more information contact the author.
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