this is for holding javascript data
Justin Long edited subsection_Fractal_Physics_and_Negative__.tex
over 8 years ago
Commit id: 6d68784e3e4a96b6f59ce3f37978598bbe4a796d
deletions | additions
diff --git a/subsection_Fractal_Physics_and_Negative__.tex b/subsection_Fractal_Physics_and_Negative__.tex
index 9143cec..e6ff716 100644
--- a/subsection_Fractal_Physics_and_Negative__.tex
+++ b/subsection_Fractal_Physics_and_Negative__.tex
...
\subsection{Fractal Physics and Negative Energy}
Developing methods and instrumentation to measure gravitational fields and laboratory is moot if a mechanism for generating negative energy cannot be engineered. The Alcubierre solution resolves to a negative energy density, requiring negative energy and/or exotic mass (Alcubierre, 1994). Krasnikov's analysis in quantum inequalities supports physical nature of negative energy (Krasnikov, 2003). Taking survey results from Wilkinson Microwave Anisotropy Probe into account, the low amount of ordinary baryonic matter - $4.628\% \pm 0.093\%$ (Beringer et al., 2014) - suggests current physics is based on only observable phenomena and there is merit in consulting new physical theory (Green, 2014). To this end, we
explore use fractal physics
as a basis for
the purpose of validating exploring negative energy
generation concepts.