Then how about these observations?
COG:
1.Every particle in an object consisting of more than one
particle bonded by enough force exhibits the property of
normalizing their respective gravitation of each and every
individual particle by their relative position to one another
to a well defined area in space.
2.This defined position in space represents and reflects the
gravity of all the particles in the object.
3.An object will be considered to be stable, (having 'n'
particles in its domain), if and only if, the change in
physical parameters such as heat, vibration, impulse or
change in momentum does not being about the reduction in any
part of the 'n' particles from the domain of the object and
their relative position to one another.(although this is
non-practical, values may vary)
4.The defined part of space of the object acts as the center
point for all the external or internal changes that may
occur to the object, in which any change in the number of
particles, their relative position and the influence by any
internal and external forces will be reflected immediately
upon that particular region of space.
5.This well defined space varies from object to object,
depending upon their count for particles and their relative
distance from one another.
6.This space might occupy a singular point in most stable
objects; a straight line in objects under angular
displacement; a two dimensional area of well defined
boundaries in case of multi stable objects; a three
dimensional area having stable or dynamic boundaries in their
space.
7.Each and every object is bound to this space to an extent
such that, any linear or angular changes in momentum caused
by both internal and external influences will be reacted
directly from and about this region of space.
8.Any external impulse will cause the object to rotate with
an angular momentum proportional to the impulse and a line
passing tangentially throughout this region of space as it's
axis of rotation in free space, void of any other external
forces or forces with relatively small influence.
9.Any object that is in free space can rotate in two axes
simultaneously, both passing through this region of space, in
which both the axes coincide with one another at this
particular region of space.
10.An object that has definite number of particles in it's
domain and a definite relative position of the particles in
the domain is said to be stable under standard internal and
external influences.
11.An object having definite number of particles in it's
domain but has a dynamic relative position of the particles in
the domain is said to be dynamic under standard internal and
external influences.
12.A stable object is likely to have a well defined region in
space while a dynamic object will have a more complex and
irrational region in space and will vary with each and every
relativistic change in the position of the other particles.
13.Two different objects with comparatively different defined
regions in space can be bound together into a single stable
object by atomic or molecular binding forces such that their
resulting region of space will be exactly in the middle of
the line joining their respective spaces. For two stable
objects, it can be a two or three dimensional region in space
while for dynamic objects, it could be a dynamic region of
space, that changes with the relative change in either one of
the dynamic objects.
14.Such a region in space possessed by an object is termed as
"Center Of Gravity" or COG for short.
