Rio Dela Duna, Jeremy Bass - In This House (Sergio Pardo Remix) [La Divi...

you know, "In This House", we have this thing, it's called the truth and honour and integrity, even when there is no one looking, you still do the right thing, like for example, i can show you a trove of declassified papers, and some slightly sensitive, showing the certain government agencies, have been using acoustic resonance, on the seabed to alter the depth, and slope, and composition of layers, and if one were so inclined, they could cause all manner of underwater quakes, and as a result freak waves, and tsunamis, their geo weather modification programs, are becoming more and more, of a global problem, for everyone by the second, and the clocks been ticking, a long time on this one, take a look at the following and the list, goes on and on, So to all you students and academics, what you fail to realise, is that the governments for which you toil, have no morals, or mercy or regret, is that the kind of world, you want to create?,  because if your not careful, your harmless studies data, will be used by unscrupulous monsters, to make weapons, that will be used against you, and your families, wake up!, you cannot afford to be so naive as, standardz, hahahaha :( #edio
Accession Number : ADA531859
Title : Continued Investigation of the Acoustics of Marine Sediments Using Impedance Tube and Acoustic Resonator Techniques
Descriptive Note : Annual rept.
Corporate Author : TEXAS UNIV AT AUSTIN APPLIED RESEARCH LABS
Personal Author(s) : Wilson, Preston S.
Full Text : http://www.dtic.mil/dtic/tr/fulltext/u2/a531859.pdf
Report Date : 30 SEP 2009
Pagination or Media Count : 18
Abstract : The main goal of this project is to increase our understanding of sound propagation in ocean bottom sediments, including ocean bottom multiphase material such as gas-bearing sediments and seagrass, which in turn benefits buried object detection, sonar operation and acoustic communications in shallow water. Another goal for the out years is to develop the proposed research apparatus into an operational system for in situ classification of ocean bottoms for Naval fleet operations.
Accession Number : ADA625845
Title : Wave Effects on Mega Ripples and Objects on a Sandy Seabed
Descriptive Note : Annual rept.
Corporate Author : MASSACHUSETTS INST OF TECH CAMBRIDGE DEPT OF CIVIL AND ENVIRONMENTAL ENGINEERING
Personal Author(s) : Mei, Chiang C
Full Text : http://www.dtic.mil/dtic/tr/fulltext/u2/a625845.pdf
Report Date : 30 Sep 2001
Pagination or Media Count : 7
Abstract : Our general goals are to advance the hydrodynamics of waves, currents and the two-phase dynamics of sediment transport in coastal seas. An important part is to gain physical understanding of the physics and to enable quantitative prediction of the seabed evolution near the shore. The nearshore morphology includes features of a wide range of length scales : from the entire beach to sand bars and down to sand ripples, The mechanisms may differ over different scales, and may also be intertwined. This proposal focusses on the formation of mega ripples on a sandy seabed under sea waves.
Accession Number : ADA537354
Title : Wave Interaction with Large Topographic or Man-made Structures
Descriptive Note : Annual rept.
Corporate Author : MASSACHUSETTS INST OF TECH CAMBRIDGE DEPT OF CIVIL AND ENVIRONMENTAL ENGINEERING
Personal Author(s) : Mei, Chiang C.
Report Date : 30 SEP 1998
Pagination or Media Count : 6
Abstract : To study, by fluid mechanical theories, the interaction of ocean surface waves with structures, either natural (sandbars, harbors, coastline) or man-made (offshore airports, breakwaters). Factors of natural environment (wind, sediments) that are integral parts of the physical process are included. For the present grant the immediate goals are to examine: (1) Various resonance mechanisms that can lead to large wave loads around a structure. In the current year, efforts are focused on a structure with periodic components, with the ultimate view to studying a floating airport supported by many submersibles; and (2) Mechanisms of generating periodic sandbars on the seacoast which may be of importance to small-scale naval operations.