2017年8月31日木曜日

The World’s Debt to Jesus Christ

The World’s Debt to Jesus Christ

The West’s Christian heritage is being erased from our consciousness by our political, educational, and media elites. Somehow, the scientific and technological products that originated in the West now arose in a vacuum. Universities like Harvard, Yale, Oxford, and Cambridge have been going to great lengths to minimize or even deny Christians had anything to do with their establishment, but their debt to Christians is undeniable.
The fact is everyone on earth owes a great debt to Jesus Christ because those influenced by his teachings were directly responsible for virtually everything that makes our lives the most enjoyable and productive in human history.
Christians, and the Jews and other non-believers living and working within the Christian milieu of Europe and North America in the past 500 years, gave the world the notions of inherent human rights. They forced the abolition of human sacrifice, slavery, infanticide, and cannibalism wherever they had influence. They drove the criminalization of pedophilia, rape, and torture. They invented universities, hospitals, modern banks, universal literacy, education degrees, academic accreditation, property rights, mass production, intellectual property rights, separation of church and state, freedom of speech, and many more benefits and “rights” that we take for granted. They developed the foundation for virtually every invention that we enjoy today (cell phones, cars, planes, computers, air conditioners, televisions, and tens of thousands of other inventions).
Christianity was the soil that allowed the notion that adultery, even if done by men with unmarried women or with their slaves, is wrong. It gave us the novel ideas of civil rights, women’s rights, children’s rights, animal rights, environmentalism, and equitable welfare program and public health care.
We need to ask: What do Isaac Newton, Leonhard Euler, Carl Gauss, Wilhelm Leibniz, Antoine-Laurent Lavoisier, Johannes Kepler, Galileo Galilei, Louis Pasteur, Nicolaus Copernicus, Michael Faraday, James Clerk Maxwell, Dmitri Mendeleev, Leonardo da Vinci, and hundreds of other scientific and mathematical geniuses who founded our modern world have in common? What do Albert Einstein, Niels Bohr, J. Robert Oppenheimer, Edward Teller, Werner Heisenberg, Erwin Schrödinger, Paul Dirac, Linus Pauling, Richard Feynman, Max Planck, Edwin Hubble, Francis Crick, Enrico Fermi, Jonas Salk, Alexander Fleming, and many other 20th century figures have in common?
The answer is that all these figures have an undeniable debt to Christianity’s influence on their own work. The “rational” Western Christian environment they lived in allowed and encouraged free inquiry. It gave recognition, honor, authority, and financial rewards to those who succeeded in advancing knowledge. It gave them the opportunity of obtaining an education within institutions created by Christians, and it provided them with the means to formulate and refine their ideas and it circulated their work across the world.

Without Christianity, the foundations of modern science and technology could’ve never been made since of the four largest world religions, it was only Christianity’s theology, cosmology, and cultural practices that allowed for their establishment, and eventual spread across the world.
This is why there ar no Moslem, Hindu, or Buddhist figures outside the West and its influences that can be shown to have impacted the whole world comparable to these figures. There’s no doubt men like C.V. Raman, Satyendra Nath Bose, Subrahmanyan Chandrasekhar, and the frighteningly brilliant Srinivasa Ramanujan made great contributions; but they were done completely within the Western scientific and mathematical establishments built by Christians.https://pjmedia.com/faith/2017/08/19/the-worlds-debt-to-jesus-christ/

とても興味深く読みました:
\documentclass[12pt]{article}
\usepackage{latexsym,amsmath,amssymb,amsfonts,amstext,amsthm}
\numberwithin{equation}{section}
\begin{document}
\title{\bf  Announcement 380:   What is the zero?\\
(2017.8.21)}
\author{{\it Institute of Reproducing Kernels}\\
Kawauchi-cho, 5-1648-16,\\
Kiryu 376-0041, Japan\\
 }
\date{\today}
\maketitle

\section{What is the zero?}

The zero $0$ as the complex number or real number is given clearly by the axions by the complex number field and real number field.

For this fundamental idea, we should consider the {\bf Yamada field}  containing the division by zero. The Yamada field and the division by zero calculus will arrange our mathematics, beautifully and completely; this will be our natural and complete mathematics.
\medskip

\section{ Double natures of the zero $z=0$}

The zero point $z=0$ represents the double natures; one is the origin at the starting point and another one is a representation of the point at infinity. One typical and simple example is given by $e^0 = 1,0$, two values. {\bf God loves  two}.

\section{Standard value}
\medskip

The zero is a center and stand point (or bases, a standard value) of the coordinates - here we will consider our situation on the complex or real 2 dimensional spaces. By stereographic
 projection mapping or the Yamada field, the point at infinity $1/0$ is represented by zero. The origin of the coordinates and the point at infinity correspond each other.

As the standard value, for the point $\omega_n = \exp \left(\frac{\pi}{n}i\right)$  on the unit circle $|z|=1$ on the complex $z$-plane is,  for $n = 0$:
\begin{equation}
\omega_0 = \exp \left(\frac{\pi}{0}i\right)=1, \quad  \frac{\pi}{0} =0.
\end{equation}
For the mean value
$$
M_n  = \frac{x_1  +  x_2  +... + x_n}{n},
$$
we have
$$
M_0 = 0 = \frac{0}{0}.
$$
\medskip

\section{ Fruitful world}
\medskip

For example, for very and very general partial differential equations, if the coefficients or terms are zero, then we have some simple differential equations and the extreme case is all the terms are zero; that is, we have trivial equations $0=0$; then its solution is zero. When we consider the converse, we see that the zero world is a  fruitful one and it means some vanishing world. Recall Yamane phenomena (\cite{kmsy}), the vanishing result is very simple zero, however, it is the result from some fruitful world. Sometimes, zero means void or nothing world, however, it will show {\bf some changes} as in the Yamane phenomena.

\section{From $0$ to $0$; $0$ means all and all are $0$}
\medskip

As we see from our life figure (\cite{osm}), a story starts from the zero and ends with the zero. This will mean that $0$ means all and all are $0$. The zero is a {\bf mother} or an {\bf origin} of all.
\medskip

\section{ Impossibility}
\medskip
As the solution of the simplest equation
\begin{equation}
ax =b
\end{equation}
we have $x=0$ for $a=0, b\ne 0$ as the standard value, or the Moore-Penrose generalized inverse. This will mean in a sense, the solution does not exist; to solve the equation (6.1) is impossible.
We saw for different parallel lines or different parallel planes, their common points are the origin. Certainly they have the common points of the point at infinity and the point at infinity is represented by zero. However, we can understand also that they have no solutions, no common points, because the point at infinity is an ideal point.

Of course. we can consider the equation (6.1)  even the case $a=b=0$ and then we have the solution $x=0$ as we stated.

We will consider the simple differential equation
\begin{equation}
m\frac{d^2x}{dt^2} =0,  m\frac{d^2y}{dt^2} =-mg
\end{equation}
with the initial conditions, at $t =0$
\begin{equation}
 \frac{dx}{dt} = v_0 \cos \alpha , \frac{d^2x}{dt^2} = \frac{d^2y}{dt^2}=0.
\end{equation}
Then,  the highest high $h$, arriving time $t$, the distance $d$ from the starting point at the origin to the point $y(2t) =0$ are given by
\begin{equation}
h = \frac{v_0 \sin^2 \alpha}{2g},  d= \frac{v_0\sin \alpha}{g}
\end{equation}
and
\begin{equation}
t= \frac{v_0 \sin \alpha}{g}.
\end{equation}
For the case $g=0$, we have $h=d =t=0$. We considered the case that they are the infinity; however, our mathematics means zero, which shows impossibility.

These phenomena were looked many cases on the universe; it seems that {\bf God does not like the infinity}.

\bibliographystyle{plain}
\begin{thebibliography}{10}

\bibitem{kmsy}
M. Kuroda, H. Michiwaki, S. Saitoh, and M. Yamane,
New meanings of the division by zero and interpretations on $100/0=0$ and on $0/0=0$,
Int. J. Appl. Math.  {\bf 27} (2014), no 2, pp. 191-198,  DOI: 10.12732/ijam.v27i2.9.

\bibitem{msy}
H. Michiwaki, S. Saitoh,  and  M.Yamada,
Reality of the division by zero $z/0=0$.  IJAPM  International J. of Applied Physics and Math. {\bf 6}(2015), 1--8. http://www.ijapm.org/show-63-504-1.html

\bibitem{ms}
T. Matsuura and S. Saitoh,
Matrices and division by zero $z/0=0$, Advances in Linear Algebra
\& Matrix Theory, 6 (2016), 51-58. http://dx.doi.org/10.4236/alamt.2016.62007 http://www.scirp.org/journal/alamt 

\bibitem{mos}
H.  Michiwaki, H. Okumura, and S. Saitoh,
Division by Zero $z/0 = 0$ in Euclidean Spaces.
 International Journal of Mathematics and Computation Vol. 28(2017); Issue  1, 2017), 1-16. 

\bibitem{osm}
H. Okumura, S. Saitoh and T. Matsuura, Relations of   $0$ and  $\infty$,
Journal of Technology and Social Science (JTSS), 1(2017),  70-77.

\bibitem{romig}
H. G. Romig, Discussions: Early History of Division by Zero,
American Mathematical Monthly, Vol. 31, No. 8. (Oct., 1924), pp. 387-389.

\bibitem{s}
S. Saitoh, Generalized inversions of Hadamard and tensor products for matrices,  Advances in Linear Algebra \& Matrix Theory.  {\bf 4}  (2014), no. 2,  87--95. http://www.scirp.org/journal/ALAMT/

\bibitem{s16}
S. Saitoh, A reproducing kernel theory with some general applications,
Qian,T./Rodino,L.(eds.): Mathematical Analysis, Probability and Applications - Plenary Lectures: Isaac 2015, Macau, China, Springer Proceedings in Mathematics and Statistics,  {\bf 177}(2016), 151-182 (Springer).

\bibitem{ttk}
S.-E. Takahasi, M. Tsukada and Y. Kobayashi,  Classification of continuous fractional binary operations on the real and complex fields,  Tokyo Journal of Mathematics,   {\bf 38}(2015), no. 2, 369-380.

\bibitem{ann179}
Announcement 179 (2014.8.30): Division by zero is clear as z/0=0 and it is fundamental in mathematics.

\bibitem{ann185}
Announcement 185 (2014.10.22): The importance of the division by zero $z/0=0$.

\bibitem{ann237}
Announcement 237 (2015.6.18):  A reality of the division by zero $z/0=0$ by  geometrical optics.

\bibitem{ann246}
Announcement 246 (2015.9.17): An interpretation of the division by zero $1/0=0$ by the gradients of lines.

\bibitem{ann247}
Announcement 247 (2015.9.22): The gradient of y-axis is zero and $\tan (\pi/2) =0$ by the division by zero $1/0=0$.

\bibitem{ann250}
Announcement 250 (2015.10.20): What are numbers? -  the Yamada field containing the division by zero $z/0=0$.

\bibitem{ann252}
Announcement 252 (2015.11.1): Circles and
curvature - an interpretation by Mr.
Hiroshi Michiwaki of the division by
zero $r/0 = 0$.

\bibitem{ann281}
Announcement 281 (2016.2.1): The importance of the division by zero $z/0=0$.

\bibitem{ann282}
Announcement 282 (2016.2.2): The Division by Zero $z/0=0$ on the Second Birthday.

\bibitem{ann293}
Announcement 293 (2016.3.27):  Parallel lines on the Euclidean plane from the viewpoint of division by zero 1/0=0.

\bibitem{ann300}
Announcement 300 (2016.05.22): New challenges on the division by zero z/0=0.

\bibitem{ann326}
 Announcement 326 (2016.10.17): The division by zero z/0=0 - its impact to human beings through education and research.

 \bibitem{ann352}
Announcement 352(2017.2.2):   On the third birthday of the division by zero z/0=0.

\bibitem{ann354}
Announcement 354(2017.2.8): What are $n = 2,1,0$ regular polygons inscribed in a disc? -- relations of $0$ and infinity.

\bibitem{362}
Announcement 362(2017.5.5):   Discovery of the division by zero as
$0/0=1/0=z/0=0$.


\end{thebibliography}

\end{document}

The division by zero is uniquely and reasonably determined as 1/0=0/0=z/0=0 in the natural extensions of fractions. We have to change our basic ideas for our space and world

Division by Zero z/0 = 0 in Euclidean Spaces
Hiroshi Michiwaki, Hiroshi Okumura and Saburou Saitoh
International Journal of Mathematics and Computation Vol. 28(2017); Issue  1, 2017), 1
-16. 
http://www.scirp.org/journal/alamt   http://dx.doi.org/10.4236/alamt.2016.62007
http://www.ijapm.org/show-63-504-1.html
http://www.diogenes.bg/ijam/contents/2014-27-2/9/9.pdf
http://okmr.yamatoblog.net/division%20by%20zero/announcement%20326-%20the%20divi
http://okmr.yamatoblog.net/

Relations of 0 and infinity
Hiroshi Okumura, Saburou Saitoh and Tsutomu Matsuura:
http://www.e-jikei.org/…/Camera%20ready%20manuscript_JTSS_A…
https://sites.google.com/site/sandrapinelas/icddea-2017

2017.8.21.06:37

1/0=0、0/0=0、z/0=0

http://ameblo.jp/syoshinoris/entry-12276045402.html

                                               1/0=0、0/0=0、z/0=0


1/0=0、0/0=0、z/0=0

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