mirror of
https://github.com/nhammer514/textfiles-politics.git
synced 2024-12-26 15:59:29 -05:00
142 lines
6.3 KiB
XML
142 lines
6.3 KiB
XML
<?xml version="1.0" encoding="UTF-8"?>
|
|
<div class="article">
|
|
<p> Host Element Fusion</p>
|
|
<p> Unpublished Work
|
|
Copyright (c) 1990
|
|
Earl Laurence Lovings</p>
|
|
<p>1. Proton (1 Hydrogen 1) Energy: 938.3 Mev = 1.007825 amu
|
|
2. Neutron (1 Neutron 0) Energy: 939.6 Mev = 1.008665 amu
|
|
3. Deuterium (2 Hydrogen 1) = 2.014102 amu
|
|
4. [(1 Neutron 0) + (1 Hydrogen 1) - electron] =
|
|
(939.6 Mev + 938.3 Mev - .511 Mev) = 1877.389 Mev =
|
|
2.015447128 amu
|
|
5. [(1 Neutron 0) - (1 Hydrogen 1) + electron] =
|
|
(939.6 Mev - 938.3 Mev + .511 Mev) = 1.811 Mev =
|
|
1.9441763 x 10 - 03 amu
|
|
6. (105 Palladium 46) = 104.905064 amu
|
|
7. (103 Rhodium 45) = 102.905511 amu</p>
|
|
<p>The host element fusion experiment begins with a Palladium
|
|
electrode submersed in Deuterium. A energy source is supplied,
|
|
which enables the fusion process to begin. My theory on this
|
|
subject is explained below:</p>
|
|
<p>The Deuterium atoms are allowed inside the Palladium electrode due
|
|
to the electric field on the electrode. Once the Deuterium atoms
|
|
are inside, the Deuterium causes the Palladium to become unstable.
|
|
This is done by this process:</p>
|
|
<p>[ (105 Pd 46 - (1 Neutron 0 + 1 Hydrogen 1 - electron) +
|
|
(1 Neutron 0 - 1 Hydrogen 1 + electron)] or,
|
|
[ 104.905064 amu - 2.015447128 amu + 1.9441763 x 10-03 amu] =
|
|
102.8916 amu.</p>
|
|
<p>The closest element Palladium can try to become stable is
|
|
(103 Rhodium 45).</p>
|
|
<p>Take Palladium's new mass and subtract it with Rhodium's mass.
|
|
(103 Rhodium 45) - 102.8916 amu, or
|
|
102.905511 amu - 102.8916 amu = 1.394653 x 10-02 amu.</p>
|
|
<p>To find out how many electrons that is equivalent to:
|
|
(1.394653 x 10-02 amu x 931.5 Mev/amu)/(.511 Mev/electrons) =
|
|
25.42309 electrons</p>
|
|
<p>This is the amount of electrons required to be ionized to enable
|
|
host element fusion with Deuterium. </p>
|
|
<p>That is the first process of host element fusion. </p>
|
|
<p>The second process begins when the ionized electrons from the
|
|
palladium atom shields the deuterium atoms to allow host element
|
|
fusion.</p>
|
|
<p> The Equation:</p>
|
|
<p>Q = [(2 Hydrogen 1) + (2 Hydrogen 1) + (25.423 e) -
|
|
(1877.389 Mev) + (1.811 Mev) - (2 Hydrogen 1)] x 931.5 Mev or,</p>
|
|
<p>Q = [(2.014102 amu + 2.014102 amu + .01394653 amu - 2.015447 amu
|
|
+ 1.944176 x 10-03 amu - 2.014102 amu)] x 931.5 Mev</p>
|
|
<p>Q = 13.55 Mev</p>
|
|
<p>You must realize for this process to work for host element fusion,
|
|
you have to have a host element before Deuterium will fuse.
|
|
My equation also theoretically works for known Deuterium fusion
|
|
processes.</p>
|
|
<p> Known Equation:</p>
|
|
<p>1. [(2 Hydrogen 1) + (2 Hydrogen 1)] -> (3 Helium 2) +
|
|
(1 Neutron 0)] = or,</p>
|
|
<p> [(2.014102 amu + 2.014102 amu - 3.016030 amu - 1.008665 amu) x
|
|
(931.5 Mev/amu)] = Q = 3.27 Mev</p>
|
|
<p>My Equation: </p>
|
|
<p>Host Element = (3 Helium 2) + (1 Neutron 0)
|
|
[(3 Helium 2) + (1 Neutron 0) - 1877.389 Mev + 1.811 Mev] =
|
|
[3.016030 amu + 1.008665 amu - 2.015447 amu + 1.944176x10-03 amu]
|
|
= 2.011192 amu</p>
|
|
<p>The element whose mass is closest to the new unstable "element" is
|
|
(2 Hydrogen 1)</p>
|
|
<p>(2.014102 amu) - 2.011192 amu = 2.909899 x 10-03 amu excess mass
|
|
convert to electrons</p>
|
|
<p>(2.909899 x 10-03 amu x 931.5 Mev/amu) /(.511 Mev/electrons) =
|
|
5.304445 electrons</p>
|
|
<p>Now the fusion of Deuterium atoms
|
|
[(2 Hydrogen 1) + (2 Hydrogen 1) + 5.30444e - 1877.389 Mev
|
|
+ 1.811 Mev - (2 Hydrogen 1)] x 931.5 Mev =
|
|
[(2.014102 amu + 2.014102 amu + 2.909899x10-03 amu - 2.015447 amu
|
|
+ 1.944176x10-03 amu - 2.014102 amu)] x (931.5 Mev/amu)</p>
|
|
<p>Q = 3.27 Mev</p>
|
|
<p> Known Equation:</p>
|
|
<p>2. [(2 Hydrogen 1) + (2 Hydrogen 1) -> (4 Helium 2)] = or,
|
|
[(2.014102 amu + 2.014102 amu - 4.002603 amu)] x
|
|
(931.5 Mev/amu) = Q = 23.85 Mev
|
|
|
|
My Equation: </p>
|
|
<p>Host Element = (4 Helium 2)
|
|
[(4 Helium 2) - 1877.389 Mev + 1.811 Mev] =
|
|
[(4.002603 amu - 2.015447 amu + 1.944176x10-03 amu)] = 1.9891 amu</p>
|
|
<p>The element whose mass is closest to the new unstable "element" is
|
|
(2 Hydrogen 1)</p>
|
|
<p>(2.014102 amu) - 1.9891 amu = 2.500188 x 10-02 amu excess mass
|
|
convert to electrons</p>
|
|
<p>(2.500188 x 10-02 amu x 931.5 Mev/amu) /(.511 Mev/electrons) =
|
|
45.57585 electrons</p>
|
|
<p>Now the fusion of Deuterium atoms
|
|
[(2 Hydrogen 1) + (2 Hydrogen 1) + 45.58 electrons - 1877.389 Mev
|
|
+ 1.811 Mev - (2 Hydrogen 1)] x 931.5 Mev =
|
|
[(2.014102 amu + 2.014102 amu + 2.500188x10-02 amu - 2.015447 amu
|
|
+ 1.944176x10-03 amu - 2.014102 amu)] x (931.5 Mev/amu) =</p>
|
|
<p>Q = 23.85 Mev</p>
|
|
<p> Known Equation:</p>
|
|
<p>3. [(2 Hydrogen 1) + (2 Hydrogen 1) -> (3 Hydrogen 1) +
|
|
(1 Hydrogen 1) = or,</p>
|
|
<p>[(2.014102 amu + 2.014102 amu - 3.016050 amu - 1.007825 amu)] x
|
|
(931.5 Mev/amu) = Q = 4.03 Mev</p>
|
|
<p>My Equation: </p>
|
|
<p>Host Element = (3 Hydrogen 1) + (1 Hydrogen 1)
|
|
[(3 Hydrogen 1) + ( 1 Hydrogen 1) - 1877.389 Mev + 1.811 Mev] =
|
|
[3.016050 amu + 1.007825 amu - 2.015447 amu + 1.944176x10-03 amu]
|
|
= 2.010372 amu</p>
|
|
<p>The element whose mass is closest to the new unstable "element" is
|
|
(2 Hydrogen 1)</p>
|
|
<p>(2.014102 amu - 2.010372 amu) = 3.729582x10-03 amu excess mass
|
|
convert to electrons</p>
|
|
<p>(3.729582x10-03 amu x 931.5 Mev/amu)/(.511 Mev/electrons) =
|
|
6.798641 electrons</p>
|
|
<p>Now the fusion of Deuterium atoms
|
|
[(2 Hydrogen 1) + (2 Hydrogen 1) + 6.799 electrons - 1877.389 Mev
|
|
+ 1.811 Mev - (2 Hydrogen 1)] x 931.5 Mev =
|
|
[(2.014102 amu + 2.014102 amu + 3.7296x10-03 amu - 2.015447 amu +
|
|
1.944176x10-03 amu - 2.014102 amu)] x (931.5 Mev/amu) =
|
|
Q = 4.03 Mev</p>
|
|
<p> Known Equation:</p>
|
|
<p>4. [(1 Hydrogen 1) + (1 Hydrogen) -> (2 Hydrogen 1) +(electron)=
|
|
[(1.007825 amu + 1.007825 amu - 2 electrons - 2.014102 amu)]
|
|
x (931.5 Mev/amu) = Q = .42 Mev</p>
|
|
<p>My Equation:</p>
|
|
<p>Host Element = (2 Hydrogen 1)
|
|
[(2 Hydrogen 1) - 1877.389 Mev + 1.811 Mev] =
|
|
[(2.014102 amu - 2.015447128 amu + 1.9441763x10-03 amu)] =
|
|
5.990302x10-04 amu</p>
|
|
<p>The element whose mass is closest to the new unstable "element"
|
|
is (1 Hydrogen 1)</p>
|
|
<p>(1.007825 amu - 5.990302x10-03 amu) = 1.007226 amu excess mass
|
|
convert to neutrinos</p>
|
|
<p>(1.007226 amu x 931.5 Mev/amu) / (.42 Mev/neutrinos) =
|
|
2233.884 neutrinos</p>
|
|
<p>Now the fusion of 1 Hydrogen 1 atoms</p>
|
|
<p>[(1 Hydrogen 1) + (1 Hydrogen 1) + 2234 neutrinos - 2 electrons
|
|
- 1877.389 Mev + 1.811 Mev - (1 Hydrogen)] x 931.5 Mev/amu =
|
|
[(1.007825 amu + 1.007825 amu + 1.007226 amu - .001097 amu
|
|
-2.015447128 amu + 1.9441763x10-03 amu - 1.007825 amu)]
|
|
x 931.5 Mev/amu = Q = .42 Mev
|
|
</p>
|
|
</div>
|