Other
Scientific paper
Apr 2003
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003eaeja.....1418c&link_type=abstract
EGS - AGU - EUG Joint Assembly, Abstracts from the meeting held in Nice, France, 6 - 11 April 2003, abstract #1418
Other
Scientific paper
Three Types of mechanisms for Stellar Origin, Formation and Evolution are hypothesized. The first type (A) is well known; whereas, the other two (B&C) are new and proposed herein. Type A process, the presently universally accepted process, consists of the three phases of gravitation, followed by accretion, followed by fragmentation. In Type B process, a star originates as an expanded, modified Black Hole (BH), [1] with none or little help from gravitation/accretion, that begins to radiate, and continues to grow into a star. In Type C process, a star would originate from a combination of the mechanisms described above for Type A and B. This latter mechanism is perhaps the most common type. This type starts as an expanded, modified BH inside of a gas and dust cloud. This, then serves as the nucleus that starts the subsequent gravitation/accretion process; however, it greatly accelerates the accretion/formation process as in a standard Type A process. This mechanism could then explain how some super-cluster complexes, which have been estimated would take 40 to 60 billion years to form, can occur in a universe of a much younger age. A suggested sequence to explain why the Northern (Greenland) and Southern Regions of the Atlantic Ocean are getting warmer is proposed. As the earth grows two things occur, among others [1]. It is hypothesized the earth is expanding about 3 cm per year at the equator (1 cm in the Atlantic, and 2 cm in the Pacific), rather than just 1 cm at the center of the Atlantic as is commonly accepted. The earth may be expanding at an even greater rate, longitudinally (north and south), throughout the Pacific Ocean. The horizontal (latitudinal) ridges in the Pacific Ocean Floor/Bed could explain this. This effect should be measurable. If indeed this is occurring, the mass at the poles would be moving toward a latitude of a lesser angle relative to the equator while simultaneously its distance to the equator remains constant. That is, the mass seems to move closer to the Atlantic Ocean. The end result would be for landmasses, such as Greenland, to be at more southerly latitudes, thus explaining why it may be experiencing some warming. Similarly, large land masses in Antarctica may also be moving toward more northerly latitudes causing it to become warmer and thus explaining why some glacier ice is breaking off of the Antarctica, only on the Atlantic side. [1] A Hypothesis for the Origin and Evolution of Stars and Planets, Including Earth, which asks, "Was the Earth Once a Small Bright Star?" C. Samuels and S. Cimorelli, American Geophysical Union, in Washington, DC, May 31, 2002
Cimorelli S. A.
Samuels C.
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