The Theory of Gravity
Aloysius
Sebastian
aloysi.aloys@gmail.com
Abstract
Here
I am about to create a new theory of gravity. In this theory I am trying to
explain the range of gravity and the gravitational field. With this theory, one
can calculate the range of gravitational field of an independent object. Here
gravity is not depending upon the mass of a second object. Here gravity is
related to the energy of the object. I am not going to replace any previous
theories of gravity. Sir Isaac Newton and Albert Einstein were made wonderful
theories. I am also working with those theories. Inside these theories I have
been found a road to explain gravity with my thoughts. So mainly I am using their
equations and adding my works with them. And now I can find the range of
gravity. I can clearly say that, it is a simple theory with logics and
everybody can understand it easily.
Introduction
As I
wrote above, now I can find the range of gravity and I can clearly say that,
gravity has a finite range. Gravity will not lead to infinity. I am here
treating gravity as a form of energy. So we can find the distribution of energy
at different distances. I was started thinking about gravity, when I was
writing my paper “Structure of Relatively Accelerating Universe”. That was a
theory about the expansion and acceleration of universe. In there the universe
was accelerating under a gravitational frame. After that I have started
thinking more seriously about gravity and I had some interesting leads. The
findings which got that time were written as an article in my online pages. There
I had found an interesting constant which I called it as “A”. It can be written as C2/G.
Here “C” stands for the velocity of light and “G” stands for the universal
gravitational constant. According to this constant, I have developed my ideas
and find the range of the gravitational constant.
Theory
Now
here we will try to find the gravitational field of an independent object.
Gravitational field is related to the energy of the object. All we know that
gravity is related to the mass of an object. I am also taking mass as the
source of energy to calculate the gravitational field. According to Sir Isaac
Newton Gravitational force between two objects is described as F =
G.M1M2/r2.
Here I am ignoring this equation because it is stating gravity as a force
between two objects. My intention is to state gravity as a form of energy and
find the strength of gravitational field in each levels.
Gravity
in Newtonian Physics is
g = GM/r2 (1)
Albert
Einstein in his theory states Energy of an object as
E = Mc2 (2)
As I
wrote above I had find a constant in my works and that constant A
is explain as
A = C2/G explained
in reff: [2] (3)
So
the Gravitational field we have to describe now. Here we have gravity “g” of an
object, mass “m” of the object, Energy “E” of the object and constant “A” with
us. By describing gravity as energy, we can describe gravitational energy at
different levels.
So
here I am intended to say the gravitational field of an independent object, we
can explain as
GE = MA/g (4)
This
equation gives us the total gravitational field of an independent object.
According to this equation we can find the gravitational field, which is created by a mass at different levels. Once we increase the distance the energy in the
field will decrease. It can be diminish
up to zero. When the energy level becomes zero, there the gravity of the
particular mass ends.
So
the equation we can write as
GE = MA/g d (5)
Here
“GE” represents the Gravitational Energy, “M” is the mass, “A” is the constant,
“g” is the gravity of that mass and “d” represents for the distance.
I
would like to state again that, this equation is not mentioning the
gravitational force. It is for calculate the gravitational fields, where the
gravitational energy is distributed. With the help of this equation we can
calculate the amount of gravitational energy distributed in any distance.
Gravitational field of a companied system
Now
we can have a look at a companied system like two objects or a complex system
like our solar system. So if it is a two body system, these two bodies have its
own gravitational fields. So these two can interact together and may be able to
create a common gravitational field. The picture 1 ( Gravitational field of two
masses.
Picture
1: Gravitational field of two masses.
Gravitational field of a complex system
Gravitational field of a complex system like solar system or
a galaxy is also like this way. There enter multiple masses multiple range of
gravitational fields.
Conclusion
Here we can describe gravitational field on the basis of the
total energy of an object. If we are working with a complex system, there gravitational
fields will gather together and may can act as a uniform for the total system.
I am working more against with this article and will be update as soon as
posiible.
Acknowledgements
Hiromi Takashima from Hakodate, Japan, for her support and
advices.
Viktória Nyámádi from Hungary, for her valuable advices as
an experienced teacher.
Jeni, Babyjohn and Aloysius from India, for their advices
and support.
Wikipedia, for their online service and valuable articles.
References
[1] Structure of relatively accelerating universe, 10.4236/ijaa.2014.41015
This work leads me to think more about gravity and the
concepts of gravity to relate with the energy.
[5] The theory of gravity by Sir Isaak Newton and many other
articles related to this theory.
[6] Max Plank, theory of blackbody radiation and the energy of
a photon. Many other articles related to this theory.
[7] Albert Einstein, his spacial theory if relativity, mass
energy equivalent principle, general relativity theory and many other articles
related to these theories.
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