The energy emission taking place when orbital electron rings expand, can b=
e observed in the case when chemical explosives such as TNT (trinitrotoluen=
) explodes. The outermost orbital electron rings of their component atoms c=
ontributing to combine them, expand only a little bit in this case of explo=
sion, due to dissociation of TNT to form various kinds of gas molecules, su=
ch as H2O, CO2, and NO2 etc.
It is well known that the explosion of only about 7 kgs of uranium 235 pro=
duces an enormous energy equivalent to that emitted by explosion of TNT 20,=
000 metric tons. The mass ratio of these two explosive materials is about,=
1 : 2.86x10^6.
If the orbital electron rings in K shell of uranium atom with radial param=
eter, say, =CE=B3=3D1/100, expands to be the orbital electron rings in K sh=
ell of newly created atoms, such as Pb that has radial parameter, say, =CE=
=B3=3D1/99.28, then the ratio of energy capacity of these two orbital elect=
ron rings becomes identical to the mass ratio, 2.86x10^6, as shown above wh=
en we estimate it with Eq.=E2=96=B3E=3DE'[1/r^2 -1/(r+n)^2]^2. The differen=
ce of radial parameter between these two electron rings is negligibly small=
, or =CE=94=CE=B3=3D1/99.28-1/100=3D1/13,789, but the ratio of their energy=
capacity is such enormous, as shown above. However, this energy emission c=
omes only from the expansion of orbital electron rings in K shell of uraniu=
m 235. Other orbital electron rings in L, M, N,. . . .shells of uranium 235=
should also have to expand their orbital radii emitting huge energies also=
as in the case of electron rings of K shell. Thus the explosion of only 7 =
kg of uranium 235 gives rise to producing such a tremendous energy. newedan=
na wrote