New Physics Based on Yoon's Universal Atomic Model

Spaceman wrote:
"newedana" wrote in message
ups.com...
| http://yoonsphysics.blogspot.com/

Damn,
now that guy is freakin smart!
Step down Mr Einstien. etc..
All newton only stuff basically and all working perfectally.
All I can say is wow!
and that does not come often..

Grats to Yoon!
That is some sweet work.



It's interesting Spaceman doesn't know what happened in the space. ^ ^
Are you earthman or idiot??
Don't pretend to know something, lonely Spaceman.

Cliff Wilusk wrote:
Spaceman wrote:
"newedana" wrote in message
ups.com...
| http://yoonsphysics.blogspot.com/

Damn,
now that guy is freakin smart!
Step down Mr Einstien. etc..
All newton only stuff basically and all working perfectally.
All I can say is wow!
and that does not come often..

Grats to Yoon!
That is some sweet work.



It's interesting Spaceman doesn't know what happened in the space. ^ ^
Are you earthman or idiot??
Don't pretend to know something, lonely Spaceman.

Space is an earthman's dream.

According to Dr. Yoon's new physics(www.yoonsphysics.blogspot.com). the sun contains still a great amount of neutron, in respect to its average density 100g/cc.

Allegedly, neutron decomposes by β-decay to produce a proton and an
electron to build a hydrogen atom, releasing energy. Since inside of
the sun is a supercritical environment of ultra high temperature and
pressure, a proton produced by β-decay combines another neutron
nearby and it turns out to build a deuteron. Deuterons thus made are
also possible to bind themselves to construct a helium nucleus in such
a supercritical environment. Thus deutrons inside the sun becomes a
fundamental building block of 92 kinds of all the natural atomic nuclei
found on the earth.

One proton → one hydrogen nucleus
One proton + one neutron → 1 deuteron
two deuterons → one helium nucleus
Three deuterons + one neutron → one lithium nucleus
four deuterons + one neutron → one beryllium nucleus
5 deuterons + one neutron → one boron nucleus
6 deuterons → one carbon nucleus
7 deuterons → one nitrogen nucleus
8 deuterons → one oxygen nucleus
9 deuterons + one neuron → one fluorine nucleus
10 deuterons → one neon nucleus
11 deutrons + one neutron → one sodium nucleus
12 deuterons → one magnesium nucleus
13 deuterons + one neutron → one aluminium nucleus
14 deuterons → one silicon nucleus
15 deuterons + one neutron → one phosphorous nucleus
16 deuterons → one sulfur nucleus
17 deuterons + one neutron → one chlorine nucleus
18 deuterons + 4 neutrons → one argon nucleus
19 deuterons + one neutron → one potassium nucleus
20 deuterons → one calcium nucleus
. . . . . . . . . . .
26 deuterons + 4 neutrons → one iron nucleus
27 deuteron + 5 neutron → one cobalt nucleus
28 deuterons + 3 neutrons → one nickle nucleus
29 deuterons + 6 neutrons → one copper nucleus
. . . . . . . . .
88 deuterons + 50 neutrons → one radium nucleus
. . . . . . . . . . .
92 deuterons + 51 neutrons → one uranium (235) nucleus
92 deuterons + 54 neutrons → one uranium (238) nucleus

Dr. Yoon's physics(www.yoonsphysics.blogspot.com) defines that the
force of binding protons by nuclear electron ring in atomic nuclei is
the nuclear strong forces. The energy of the sun and stars is not the
nuclear fusion of hydreogen or deuterium distributed in the cosmic
space, but is the energy emitted when formation of a variety of element
atoms from neutrons in the sun and strs.

One obvious fact is that atomic structure requires more extra neutrons
to stabilize it as atomic number increases. In the case of heavy atomic
nuclei a large number of excess neutrons is required to construct a
stable nuclear structures. Particularly, in the case of radioactive
nuclei more than 50 neutrons are required to build their nuclei, but
their structure is still unstable and decomposes very slowly, radiating
α,β, and γ-rays.

Based on this fact we can reasonably predict that these radioactive
nuclei can not be built by nuclear fusion of deuterium or helium,
distributed in the cosmic space as believed today, because it conflicts
with the natural law.

We can also understand that why the nuclear fusion of deuterons to
build a helium nucleus requires such an unusual reaction environment of
ultra high temperature and pressure, as that inside of the sun or other
stars. We should remind the fact that the hydrogen bomb charged with
solid lithium deutrate was detonated with explosion of A-bomb, in order
to simulate such reaction environment of the sun. newedana

In article .com,
"newedana" wrote:
According to Dr. Yoon's new physics(www.yoonsphysics.blogspot.com). the sun
contains still a great amount of neutron, in respect to its average density
100g/cc.

Allegedly, neutron decomposes by β-decay to produce a proton and an
electron to build a hydrogen atom, releasing energy.

Not really. I suspect they'd both fly away in opposite directions.

Since inside of
the sun is a supercritical environment of ultra high temperature and
pressure, a proton produced by β-decay combines another neutron
nearby and it turns out to build a deuteron.

Except we've no proof protons are decaying in the sun.


Deuterons thus made are
also possible to bind themselves to construct a helium nucleus in such
a supercritical environment. Thus deutrons inside the sun becomes a
fundamental building block of 92 kinds of all the natural atomic nuclei
found on the earth.

Why invoke deuterium when you can make them with hydrogens?