The proof of three different nova or supernova debris streams impacting the planet and causing global warming is shown by studying the effects, locations, and timings for specific thermal and destructive events in the...The proof of three different nova or supernova debris streams impacting the planet and causing global warming is shown by studying the effects, locations, and timings for specific thermal and destructive events in the northern and southern hemisphere. Global warming is not manmade and reducing fossil fuel emissions is not the solution to protect the populations of different countries from catastrophic events due to increased thermal energy storage for the planet, The burning of atoms of incoming debris streams from exploding stars produces energy and greenhouse gases that cause the average temperature of our planet to increase. India is the current hotspot due to the location of the deflected western terminus of SN 1006. Hotspots occur that are not as obvious as the India case, but melting sea ice exposes the debris streams' hotspot activities. The incoming momentum of a debris stream can displace a large amount of polar atmosphere upon impact causing unusually extreme freezing conditions at lower latitudes like the year without a summer of 1812. The third tine of Satan's pitchfork known as high sea surface temperatures indicating El Nino is located directly between the north and south hotspots and occurs during initial high particle densities related to impact of the debris stream.展开更多
Correlation of megafauna extinctions and mega-biosphere disturbances with past supernova explosions has been accomplished by considering a time correction for supernova debris traveling at 88.2325 percent of light spe...Correlation of megafauna extinctions and mega-biosphere disturbances with past supernova explosions has been accomplished by considering a time correction for supernova debris traveling at 88.2325 percent of light speed. Supernova W44 is responsible for the Piora Oscillation which appears to be the biblical event of Noah's Flood. The closest supernova explosion, Vela Jr at 652 light-years, gives the beginning of the greatest historical human disaster, The Black Death. When supernova debris energy input occurs in the northern or southern hemisphere, it causes heating (global warming) in the northern or southern hemisphere, respectively. Long term cooling, the Little Ice Age, occurs in the northern hemisphere when the incoming debris of exploding stars impacts only the southern hemisphere for hundreds of years. Termination of the last ice age results due to melting of numerous supernova impacts that correlate time of impact by changing sea level and geothermal energy released for 2,800 years from the exit crater of Dr. J. Kennet's nano-diamond meteor theory and part of the process involves Dr. O'Keefe's tektite theory. Correlation of Dr Frezzotti's ice melt Antarctica data with supernova impact times over the past 800 years establishes the Global Warming model in conjunction with the November 2016 Antarctic sea ice melt.展开更多
The planet responds thermally to the impacts of nova WZ Sagittae debris by heating and cooling. The result in the first 19 years of the nova WZ Sagittae cycle is global warming that is hemi-spherically dependent and i...The planet responds thermally to the impacts of nova WZ Sagittae debris by heating and cooling. The result in the first 19 years of the nova WZ Sagittae cycle is global warming that is hemi-spherically dependent and is detectable in South America ice core data and Antarctica surface mass balance data. Planetary thermal data are correlated in the past by calculating the debris impact times from the super outbursts times of nova WZ Sagittae. The shape of the arctic ice cap is dependent on the 220 degree path of the debris and does not exist southward between the western extension and eastern termini of nova WZ Sagittae that define the Arctic heating path. Future global heating from nova WZ Sagittae will begin in 2020-2021. The increase of 6 to 8 magnitude unusual earthquakes in recent years is the results of nova WZ Sagittae and SN 1054 debris impact. Unusual occurrences in the biosphere indicate the starting time of impacting supernova debris streams. The Antarctic sea ice distribution in November of 2016 defines the termini of maximum particle concentration impact from supernova 1006 in the southern hemisphere. The killing heat in India of the northern hemisphere is associated with the western terminus of this supernova. Novas and supernovas times of impact correlate with plague outbreaks in the western USA marking the particles in the debris streams as the cause of the disease.展开更多
文摘The proof of three different nova or supernova debris streams impacting the planet and causing global warming is shown by studying the effects, locations, and timings for specific thermal and destructive events in the northern and southern hemisphere. Global warming is not manmade and reducing fossil fuel emissions is not the solution to protect the populations of different countries from catastrophic events due to increased thermal energy storage for the planet, The burning of atoms of incoming debris streams from exploding stars produces energy and greenhouse gases that cause the average temperature of our planet to increase. India is the current hotspot due to the location of the deflected western terminus of SN 1006. Hotspots occur that are not as obvious as the India case, but melting sea ice exposes the debris streams' hotspot activities. The incoming momentum of a debris stream can displace a large amount of polar atmosphere upon impact causing unusually extreme freezing conditions at lower latitudes like the year without a summer of 1812. The third tine of Satan's pitchfork known as high sea surface temperatures indicating El Nino is located directly between the north and south hotspots and occurs during initial high particle densities related to impact of the debris stream.
文摘Correlation of megafauna extinctions and mega-biosphere disturbances with past supernova explosions has been accomplished by considering a time correction for supernova debris traveling at 88.2325 percent of light speed. Supernova W44 is responsible for the Piora Oscillation which appears to be the biblical event of Noah's Flood. The closest supernova explosion, Vela Jr at 652 light-years, gives the beginning of the greatest historical human disaster, The Black Death. When supernova debris energy input occurs in the northern or southern hemisphere, it causes heating (global warming) in the northern or southern hemisphere, respectively. Long term cooling, the Little Ice Age, occurs in the northern hemisphere when the incoming debris of exploding stars impacts only the southern hemisphere for hundreds of years. Termination of the last ice age results due to melting of numerous supernova impacts that correlate time of impact by changing sea level and geothermal energy released for 2,800 years from the exit crater of Dr. J. Kennet's nano-diamond meteor theory and part of the process involves Dr. O'Keefe's tektite theory. Correlation of Dr Frezzotti's ice melt Antarctica data with supernova impact times over the past 800 years establishes the Global Warming model in conjunction with the November 2016 Antarctic sea ice melt.
文摘The planet responds thermally to the impacts of nova WZ Sagittae debris by heating and cooling. The result in the first 19 years of the nova WZ Sagittae cycle is global warming that is hemi-spherically dependent and is detectable in South America ice core data and Antarctica surface mass balance data. Planetary thermal data are correlated in the past by calculating the debris impact times from the super outbursts times of nova WZ Sagittae. The shape of the arctic ice cap is dependent on the 220 degree path of the debris and does not exist southward between the western extension and eastern termini of nova WZ Sagittae that define the Arctic heating path. Future global heating from nova WZ Sagittae will begin in 2020-2021. The increase of 6 to 8 magnitude unusual earthquakes in recent years is the results of nova WZ Sagittae and SN 1054 debris impact. Unusual occurrences in the biosphere indicate the starting time of impacting supernova debris streams. The Antarctic sea ice distribution in November of 2016 defines the termini of maximum particle concentration impact from supernova 1006 in the southern hemisphere. The killing heat in India of the northern hemisphere is associated with the western terminus of this supernova. Novas and supernovas times of impact correlate with plague outbreaks in the western USA marking the particles in the debris streams as the cause of the disease.
