Jacko
Jan20-09, 06:00 AM
hi
http://sites.google.com/site/jackokring download uncertain-geo.pdf
maybe also pole-free.pdf ...
Now for the unanswered research questions.
1) Does the amount of uncertainty have a spectrum? i.e. Measurement of
both pos and momentum repeated number of times, giving uncertainty
amount. How meaningful would an average be? is there any time
correlations? (to work out omega)...
2) The reverability of time, opposite of like charges repel... is
there any QM presentation of this or is it just potentials and
standing waves?
3) What would be the UG shrodinger equation equivelent?
4) What propergation of EM models could be made where c is the
geometric average of two velocities?
5) Does complex v and a pairs have certain stable orbits (stable
particles)?
6) Could higher orders of oscillation be relevant, with second order
just being a good approximation? How may this relate to measured
perpedicular mass?
7) If the pole-free explination holds any weight, high speed gravity
would shrink twice covariant, due to lorentz contraction of the
quadrapole. How accurate are the high speed gravity interaction
models? i.e. how is such a small force measured at such high speed,
and does this not create such a large uncertainty?
cheers jacko
http://sites.google.com/site/jackokring download uncertain-geo.pdf
maybe also pole-free.pdf ...
Now for the unanswered research questions.
1) Does the amount of uncertainty have a spectrum? i.e. Measurement of
both pos and momentum repeated number of times, giving uncertainty
amount. How meaningful would an average be? is there any time
correlations? (to work out omega)...
2) The reverability of time, opposite of like charges repel... is
there any QM presentation of this or is it just potentials and
standing waves?
3) What would be the UG shrodinger equation equivelent?
4) What propergation of EM models could be made where c is the
geometric average of two velocities?
5) Does complex v and a pairs have certain stable orbits (stable
particles)?
6) Could higher orders of oscillation be relevant, with second order
just being a good approximation? How may this relate to measured
perpedicular mass?
7) If the pole-free explination holds any weight, high speed gravity
would shrink twice covariant, due to lorentz contraction of the
quadrapole. How accurate are the high speed gravity interaction
models? i.e. how is such a small force measured at such high speed,
and does this not create such a large uncertainty?
cheers jacko