Carving a Space to Frame an Idea
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thejohnlreed
02/03/2012, 23:33:1002/03/12
para The Least Action Consistent Universe and the Mathematics
Carving a Space to Frame an Idea
johnreed
Mass [m] is a magnitude of comparative resistance taken, in the
simplest case, at location on a balance scale using units of weight
[mg] where [g] divides out of the balance operation continually.
At any location that we place a balance scale (as long as the balance
scale is operational at that location), the function of [g] will be
immaterial to the balance scale action. Wherever we place the balance
scale the magnitude of [g] as a factor of the product weight [mg],
will be the same on each pan regardless of the mass magnitudes placed
on the pans. The quantity [m] is derived and conserved. The quantity
[g] is a consequence of location. Therefore the balance scale
compares the resistance of atoms (matter) independent of location
using objective units that are consistent with our subjective
definition of force [mg].
We think we have proved that a universal force [mg] that we call
gravity exists as a property of inanimate matter. We believe it exists
because we feel our weight. We believe it acts on us because we feel
our weight. We define it in units of what we feel, our weight; as the
product of mass and acceleration [mg]. We postulate that inertial
mass [ma] and what we call gravitational mass [mg] are equivalent with
respect to the celestial universe because they are equivalent with
respect to what we measure, define and feel as our weight [mg] and
what we measure, define and feel as force [ma].
[F=ma]
[F=mg]
Since what we feel as Force [ma] may also be quantitatively defined as
[mg], where mass is derived and conserved and [g] is an independent
property of location, we think that the entire universe can be
explained in terms of what we feel. If you dwell on it long enough
yourself, you'll break out in laughter.
We think that we have "proven" that what we feel and call
"gravity" [mg], is the cause of the celestial universe motion. So that
the changing magnitudes for [g] external to the balance scale are a
consequence of what we feel [mg] rather than what we feel [mg] being a
consequence of our location in space.
Developing a mathematical logic through the subjective lens provided
by our senses allows us to define the least action consistent [#]
universe after our own least action consistent image, using the least
action consistent mathematics. Our weight as [mg] and a force that we
feel as [ma]. Both [g] and [a] represent acceleration. What does [m]
represent? Mass? What does mass represent? An amount of matter?
Since [g] is a consequence of location, when we define an object in
units of weight [mg], the quantity the balance scale is comparing is
the quantity mass [m], whereas the quantity we are comparing is the
quantity weight [mg] which changes with location. That's pretty simple
isn't it? If it hasn't caused a seed of revelation in your thinking
you might wonder why I bother to point it out.
When Galileo showed that all objects fall at the same rate when
dropped at the same time from the same height {#} we were all amazed.
We have remained amazed for the last 400 years. So amazed that we
have engaged in extensive research to verify that all objects really
do fall at the same rate, independent of their mass [m], when dropped
at the same time at the same place from the same height (discounting
air resistance).
We are amazed because our primary but subjective functional use for
the balance scale was and is to compare weight [mg]. Consequently we
think that the balance scale compares weight [mg]. Where the action of
the balance scale on balance equalizes the resistance of two non-
uniform (or uniform) pans of atoms, where the quantity [g] divides out
of the equation. Therefore the measure of the comparative resistance
is in mass [m] units.
Here I have pointed out that what we call gravitational acceleration
[g] is a consequence of location. Therefore all objects MUST fall at
the rate of [g] at a particular location. If that does not provide a
Eureka moment for you then indeed the fish are the last to recognize
water. Now that we know all objects have to fall at [g] we can figure
out why. You may recognize that heretofore the question "why" has been
outlawed by the physicist mathematician.
This is because we have incorporated a functioning calculational
system that has been raised to a level higher than the rational use of
words (sometimes called thinking), based on "what" we call
gravitational force [mg]. As a result our conceptual thinking is
dumbed down and made a slave to the overly simplifying practically
functional least action consistent mathematics. The notion of gravity
will work for us practically at any location we can occupy in the
universe. However, the notion of gravity and its attendant revered
mathematics in a theoretical application constricts us and leads us
into a false abyss.
johnreed Friday, March 02, 2012
johnreed
Mass [m] is a magnitude of comparative resistance taken, in the
simplest case, at location on a balance scale using units of weight
[mg] where [g] divides out of the balance operation continually.
At any location that we place a balance scale (as long as the balance
scale is operational at that location), the function of [g] will be
immaterial to the balance scale action. Wherever we place the balance
scale the magnitude of [g] as a factor of the product weight [mg],
will be the same on each pan regardless of the mass magnitudes placed
on the pans. The quantity [m] is derived and conserved. The quantity
[g] is a consequence of location. Therefore the balance scale
compares the resistance of atoms (matter) independent of location
using objective units that are consistent with our subjective
definition of force [mg].
We think we have proved that a universal force [mg] that we call
gravity exists as a property of inanimate matter. We believe it exists
because we feel our weight. We believe it acts on us because we feel
our weight. We define it in units of what we feel, our weight; as the
product of mass and acceleration [mg]. We postulate that inertial
mass [ma] and what we call gravitational mass [mg] are equivalent with
respect to the celestial universe because they are equivalent with
respect to what we measure, define and feel as our weight [mg] and
what we measure, define and feel as force [ma].
[F=ma]
[F=mg]
Since what we feel as Force [ma] may also be quantitatively defined as
[mg], where mass is derived and conserved and [g] is an independent
property of location, we think that the entire universe can be
explained in terms of what we feel. If you dwell on it long enough
yourself, you'll break out in laughter.
We think that we have "proven" that what we feel and call
"gravity" [mg], is the cause of the celestial universe motion. So that
the changing magnitudes for [g] external to the balance scale are a
consequence of what we feel [mg] rather than what we feel [mg] being a
consequence of our location in space.
Developing a mathematical logic through the subjective lens provided
by our senses allows us to define the least action consistent [#]
universe after our own least action consistent image, using the least
action consistent mathematics. Our weight as [mg] and a force that we
feel as [ma]. Both [g] and [a] represent acceleration. What does [m]
represent? Mass? What does mass represent? An amount of matter?
Since [g] is a consequence of location, when we define an object in
units of weight [mg], the quantity the balance scale is comparing is
the quantity mass [m], whereas the quantity we are comparing is the
quantity weight [mg] which changes with location. That's pretty simple
isn't it? If it hasn't caused a seed of revelation in your thinking
you might wonder why I bother to point it out.
When Galileo showed that all objects fall at the same rate when
dropped at the same time from the same height {#} we were all amazed.
We have remained amazed for the last 400 years. So amazed that we
have engaged in extensive research to verify that all objects really
do fall at the same rate, independent of their mass [m], when dropped
at the same time at the same place from the same height (discounting
air resistance).
We are amazed because our primary but subjective functional use for
the balance scale was and is to compare weight [mg]. Consequently we
think that the balance scale compares weight [mg]. Where the action of
the balance scale on balance equalizes the resistance of two non-
uniform (or uniform) pans of atoms, where the quantity [g] divides out
of the equation. Therefore the measure of the comparative resistance
is in mass [m] units.
Here I have pointed out that what we call gravitational acceleration
[g] is a consequence of location. Therefore all objects MUST fall at
the rate of [g] at a particular location. If that does not provide a
Eureka moment for you then indeed the fish are the last to recognize
water. Now that we know all objects have to fall at [g] we can figure
out why. You may recognize that heretofore the question "why" has been
outlawed by the physicist mathematician.
This is because we have incorporated a functioning calculational
system that has been raised to a level higher than the rational use of
words (sometimes called thinking), based on "what" we call
gravitational force [mg]. As a result our conceptual thinking is
dumbed down and made a slave to the overly simplifying practically
functional least action consistent mathematics. The notion of gravity
will work for us practically at any location we can occupy in the
universe. However, the notion of gravity and its attendant revered
mathematics in a theoretical application constricts us and leads us
into a false abyss.
johnreed Friday, March 02, 2012
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