THE FAR ELEMENTARY ANALYSIS OF ATOMIC MATTER

Summarization:


1.   Gravitational weighing doesn’t count the mass of the Vacuum Bulb

2.   Periodic Table has to be revised with Actual Mass of Elements

1.   Gravitational weighing doesn’t count the mass of the Vacuum Bulb

2.   Periodic Table has to be revised with Actual Mass of Elements

Actual Mass = Gravitational Mass + Mass of the Vacuum Bulb

3.   Atomic Density is not the Molecular Density of an Element

Atomic Density =Actual Mass/Volume

4.   Specific Solid Density(SSD) is a measure of Solidity of Elements

SSD= Actual Mass/Mass of the Vacuum Bulb

SSD of Vacuum =1

5.   Neutrons= Gravitational Mass - Mass of (Protons +Electrons)

                                     Mass of a Neutron

The nearest round up number is considered.

·        If the number needs some decimals, Energy has been lost by formation of the Element.

·        If the number rejects some decimals, Energy has been added by formation of the Element.  

6.   Factor of Nuclear Instability(FNI)

FNI = Number of Neutrons/ Number of Protons

·        FNI<1.5   :Stable

·        FNI>1.5   :Unstable 

 

Table-1: TYPICAL ELEMENT PROPERTIES

ELEMENT

RADIUS

 

X 10-8 cm

ACTUAL MASS

     grams/mole

ATOMIC

DENSITY

g/cm3

SPESICIF SOLID DENSITY-(SSD)

NEUTRONS

FACTOR OF NUCLEAR INSTABILITY (FNI)

1H1.008

0.78

1.013

0.846

213

0

0

2He4.002

1.28

4.023

0.760

190

2

1

6C12.011

0.77

12.012

10.434

285

6

1

8O15.999

0.66

16.000

6.343

1586

8

1

26Fe55.847

1.56

55.886

5.836

1459

29

1.11

79Au196.966

1.44

196.96

26.12

6536

116

1.46

80Hg200.59

1.60

200.65

19.42

4855

119

1.48

82Pb207.21

1.75

207.28

15.32

3833

123

1.50

86Rn222

0.71

222.024

16.42

4105

134

1.56>1.5

92U238.022

1.385

238

35.5

8879

144

1.56>1.5

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