This must be done "blind" but even then, the "experimenter effect" ( Marylyn Schlitz) would override the results ( Experimenter effect <https://books.google.com/books?id=OwVgHlx4KQEC&pg=PA138&lpg=PA138&dq=experimenter+effect%22+schlitz+-staring&source=bl&ots=ydx_ZemON7&sig=GyWDMrTatbkloi3-mMUEROsrUzo&hl=en&sa=X&ei=UeObVdWZE8v2oATG1byoCg&ved=0CCsQ6AEwAg#v=onepage&q=experimenter%20effect%22%> ).
From: James Bowery [mailto:[email protected]] Sent: Tuesday, July 7, 2015 7:07 AM To: vortex-l Subject: Re: [Vo]:Possible cause for coral reefs dying... Thanks for the numbers. This should be relatively straight forward to test: Set up two salt water aquariums supporting comparable coral populations. Run them for a year or so to see they are stable. Then subject one of them to low frequency EM radiation. PS: What I mean contraction in terms is that "pulse" implies high frequency components and, indeed, is usually illustrated by time differential on a square wave to filter out the low frequency components. However, your point is well taken -- a short duration transmission of a high power low frequency signal will penetrate salt water -- with a very drastic reduction in power with depth, as your numbers show. On Tue, Jul 7, 2015 at 8:50 AM, ChemE Stewart <[email protected]> wrote: Low frequency pulse. Also, we are not communicating with the marine life and coral reef, the evidence is mounting that 2 terrawatts of effective isotropic radiated power (EIRP) in a local area scattered by the overhead atmosphere is mildly shocking the marine life through electromagnetic induction and conduction through the salt water near the surface as it "grounds out" into the ocean. You can't fool mother nature sort of thing. Here is a model of induced electrical currents in seawater surface around just one ship's antennas. Now imagine 27 high power coastal based radars/antennas and 45 warship radars/antennas in one area. http://darkmattersalot.com/2015/05/14/how-cousteau-and-noaa-killed-the-reef/ Effects of Electrical Current* on the Body [ <http://www.cdc.gov/niosh/docs/2002-123/2002-123f.html#end3> 3] Current Reaction 1 milliamp Just a faint tingle. 5 milliamps Slight shock felt. Disturbing, but not painful. Most people can “let go.” However, strong involuntary movements can cause injuries. 6-25 milliamps (women)† 9-30 milliamps (men) Painful shock. Muscular control is lost. This is the range where “freezing currents” start. It may not be possible to “let go.” 50-150 milliamps Extremely painful shock, respiratory arrest (breathing stops), severe muscle contractions. Flexor muscles may cause holding on; extensor muscles may cause intense pushing away. Death is possible. 1,000-4,300 milliamps (1-4.3 amps) Ventricular fibrillation (heart pumping action not rhythmic) occurs. Muscles contract; nerve damage occurs. Death is likely. 10,000 milliamps (10 amps) Cardiac arrest and severe burns occur. Death is probable. On Tue, Jul 7, 2015 at 8:43 AM, James Bowery <[email protected]> wrote: Low pulsed frequency is a contradiction in terms. On Tue, Jul 7, 2015 at 7:01 AM, ChemE Stewart <[email protected]> wrote: Except low pulsed frequencies On Tuesday, July 7, 2015, James Bowery <[email protected]> wrote: On Tue, Jul 7, 2015 at 1:42 AM, MarkI-ZeroPoint <[email protected]> wrote: This is primarily meant for fellow Vort, ChemEng (Stewart), but some others may have an interest… Stewart, I think I may have a cause for your hypothesis re: a link between our modern radar systems and the dying of coral reefs… ... Time to break out the tin-foil hats??? No need. Salt water shields against EM penetration. --- This email is free from viruses and malware because avast! Antivirus protection is active. https://www.avast.com/antivirus
