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it varies noticably when
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on the Formation of the Earthby A.M.J. Crawford
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in
this range irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to
1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little
variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range
irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can
be observed.It varies noticeably when the volume
of the sphere is reduced
from 100m3
to 1cm3;
there is very little
variation when it is reduced
from 1cm3 to 1/1000mm3, although already in this range irregularly
occurring variations of the order of a billionth
can be observed.
It varies noticeably when
the volume of the sphere
is reduced from 100m3
to 1cm3;
there is very
little variation when it is
reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when
the volume of the sphere is reduced from 100m3 to 1cm3;
there is very little variation when it is reduced
from 1cm3 to 1/1000mm3,
although already
in this range irregularly occurring
variations of the order of a billionth can be observed. It varies noticeably
when the volume of
the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from
1cm3 to 1/1000mm3, alt hough already in this range ir
regular ly occurring variations of the order of
a billionth can be observe
d. It varies noticeably
when the volume of the sphe
re is reduced from 100m3 to 1cm3; there is ver
y little var
iation when it is reduced
from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order
of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed.
It varies noticeably when the volume of the sphere is reduced from 100m3
to 1cm3;
there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3;
there is very little variation when it is
reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations
of the order of
a billionth can be observed. It varies
noticeably when the volume of the sphere is reduced fro
m 100m3 to 1cm3; there is very little
variation when it is
reduce
d from 1cm3 to 1
/10
00mm3, al though al read y
in this range irregularly
occurring
variations of the or
der of a billion
th can be ob
served. It
varies noticeably when the vol
ume of the sphere is red
uced from 1
00
m3 to
1
cm3 ; t h e r e I s ve r y l I t t l e va r I a tio n whe n it I s r educe d from 1cm
3 t o 1 /10 0 0 m m 3 , a l t h o u g h a l r e a d y I n t h I s r ange I r r e gu l a r l y o c c u r ri n g v a r I a ti o n s o f t he or d e r of a b
I l l I o n t h c a n be o b s e r v e d . I t v a r I e s n o t I c e ab ly w h e n t h e
v o l u m e of t h e sp here is reduced f r o m 1 0 0 m 3 t o 1 c m 3;
there is very little variation
w he n I t vis r e d u c e d f rom 1cm3 to 1/1000m m3, although already in
this range irreg ularly occ urring variations o f the order of a billionth can be observed. It
varies no ticeably when th e v o lu me of the sphere is reduced from 100 m3 to 1 cm3; there is
very l I tt le variation when it is reduced from 1cm3 to 1/1000mm3, although alr eady in this
r ange ir regularly occurring variations of the order of a bill I on th c an be observed. It varies not iceabl
y when the v o l u me of t he sphere is reduc ed from 100m3 to 1cm3; there is ver y little var I ati on
when it is reduced fr om 1cm3 to 1/1000mm3, altho ugh alread y in this range irregularly occurring variat ions of t he order of a b
illionth can be observed. It varies noticeably when the volume of th e spher e is reduced from
100m3 to 1cm3; ther e is very little variation when it I s reduced fr om 1cm3 to 1/1000mm3, although alr eady in this range irregularly occurring va riations of the order of a billionth can be observed. It varies noticeably when the vol ume of the sp h
ere is reduced from 1 00m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000m m3, although already in this range irregularly occurring variation s of the order of a b illionth can be observed. It varies noticeably when the volume of the sph ere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variati ons of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It
v a r I es no t I c e ab l y w h
e n th e vo lum e of th e sphere I s reduced f rom 100m3 to 1cm3; there is ver y
little variation when I t is reduce d from 1cm3 to 1/1000 mm3, although already in th is range irregular ly occurring variations of t he
order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring
variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed.It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations
of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably
when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3
to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very
little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although
already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a
billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is
reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is
reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly
occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It
varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from
100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to
1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of
the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the
volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little
variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although
already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is reduced from 100m3 to 1cm3; there is very little variation when it is reduced from 1cm3 to 1/1000mm3, although already in this range irregularly occurring variations of the order of a billionth can be observed. It varies noticeably when the volume of the sphere is r