UNSC Astrophysics Journal 034-23-01: Difference between revisions

From Halopedia, the Halo wiki

(add category)
mNo edit summary
Line 13: Line 13:
:/''start file''/
:/''start file''/


:'''Abstract:''' The space-bending properties of mass in normal space are well described by Einstein's general relativity. Such distortions however, are complicated by the anomalous quantum gravitational effects in Shaw-Fujikawa (SF) spaces. Using loop-string analysis, it can be shown that a large mass bends space in SF space more than general relativity predicts by an order of magnitude. This bending may explain how several objects custered closely together in SF space have been reported erroneously as a single larger mass.
:'''Abstract:''' The space-bending properties of mass in normal space are well described by Einstein's general relativity. Such distortions however, are complicated by the anomalous quantum gravitational effects in Shaw-Fujikawa (SF) spaces. Using loop-string analysis, it can be shown that a large mass bends space in SF space more than general relativity predicts by an order of magnitude. This bending may explain how several objects clustered closely together in SF space have been reported erroneously as a single larger mass.
:Press '''ENTER''' to continue.<ref>[[Halo: The Fall of Reach]], page 141</ref>
:Press '''ENTER''' to continue.<ref>[[Halo: The Fall of Reach]], page 141</ref>



Revision as of 21:10, April 17, 2008

This paper was used by Commander Jacob Keyes when he realized the Covenant warships were inbound for Sigma Octanus IV.

Transcript of Journal 034-23-01

United Nations Space Command Astrophysics Journal 034-23-01
Date: May 097, 2540 (Military Calendar)
Encryption Code: None
Public Key: NA
Author(s): Lieutenant Commander Fhajad-084 (Service Number [CLASSIFIED]), UNSC Office of Naval Intelligence
Subject: Dimensional-Mass Space Compressions in Shaw-Fujikawa (a.k.a. "Slipstream") Space
Classification: NA
/start file/
Abstract: The space-bending properties of mass in normal space are well described by Einstein's general relativity. Such distortions however, are complicated by the anomalous quantum gravitational effects in Shaw-Fujikawa (SF) spaces. Using loop-string analysis, it can be shown that a large mass bends space in SF space more than general relativity predicts by an order of magnitude. This bending may explain how several objects clustered closely together in SF space have been reported erroneously as a single larger mass.
Press ENTER to continue.[1]

Sources