December, 2011
Atomic - Paleontology
By, Ronald Stewart, Th. D. ; Ph.D.
Abstract
Molecular-Paleontology, likely started with a report by P.H.Abelson in 1956 in the recovery of proteinaceous components from fossils. E.W. Dejong in 1974 furthered molecular paleontology with H2o precipitation reactions in mollusk fossils. In 1983 W.G. Armstrong made a number of amino acid advancements in dinosaur bone. In 1991 L. Gurley experimented with amino acids in the bones of a Seisomoasaurus sauropod . In 1994 S.R. Woodward discovered osteocalcin in dinosaur bones and teeth, including the probability of hemoglobin in soft tissue in dinosaur bone. 1995-2011, M.H. Schweitzer advanced the sub discipline of molecular paleontology with the discoveries of soft tissues and hemoglobin in T-rex and in a Hadrosaur. This research paper presents a new
paleontological sub discipline that is the next generation beyond molecular paleontology, the author of this paper has entitled : "Atomic - Paleontology ". Which attains new understandings pertaining to all atoms and electrons. Especially, a greater understanding of the morphologies of organic atoms and electrons, attaining new knowledge and understanding in all fields of paleontology. Understanding foundational utilization measurement scales is explained in (Resnick J. and Stewart R., (2011), explained in : "IMMI-Micro Orders of Magnitude In Microscopy"<Algorithms>. IMMI and sub sequent technological processes, and scientific utilization, of examining a micrograph of a Hadrosaur-(Brachylophosaurus canadensis) bone matrix lacunae, and osteocytes molecularly starting at a - (20-um) magnification level, and in a series of higher magnification steps attains imaging an immobilized atom from an inactive cell from a deceased Hadrosaur, attaining microscopic measurement scales levels much smaller than at 0.75 of (1) -(one) Angstrom.
Keywords ; Paleontology, Molecular Paleontology, Dinosaur, Biology, Atomic,
Go To : " Atomic - Paleontology -(Research - Paper) "
Atomic - Paleontology
By, Ronald Stewart, Th. D. ; Ph.D.
Abstract
Molecular-Paleontology, likely started with a report by P.H.Abelson in 1956 in the recovery of proteinaceous components from fossils. E.W. Dejong in 1974 furthered molecular paleontology with H2o precipitation reactions in mollusk fossils. In 1983 W.G. Armstrong made a number of amino acid advancements in dinosaur bone. In 1991 L. Gurley experimented with amino acids in the bones of a Seisomoasaurus sauropod . In 1994 S.R. Woodward discovered osteocalcin in dinosaur bones and teeth, including the probability of hemoglobin in soft tissue in dinosaur bone. 1995-2011, M.H. Schweitzer advanced the sub discipline of molecular paleontology with the discoveries of soft tissues and hemoglobin in T-rex and in a Hadrosaur. This research paper presents a new
paleontological sub discipline that is the next generation beyond molecular paleontology, the author of this paper has entitled : "Atomic - Paleontology ". Which attains new understandings pertaining to all atoms and electrons. Especially, a greater understanding of the morphologies of organic atoms and electrons, attaining new knowledge and understanding in all fields of paleontology. Understanding foundational utilization measurement scales is explained in (Resnick J. and Stewart R., (2011), explained in : "IMMI-Micro Orders of Magnitude In Microscopy"<Algorithms>. IMMI and sub sequent technological processes, and scientific utilization, of examining a micrograph of a Hadrosaur-(Brachylophosaurus canadensis) bone matrix lacunae, and osteocytes molecularly starting at a - (20-um) magnification level, and in a series of higher magnification steps attains imaging an immobilized atom from an inactive cell from a deceased Hadrosaur, attaining microscopic measurement scales levels much smaller than at 0.75 of (1) -(one) Angstrom.
Keywords ; Paleontology, Molecular Paleontology, Dinosaur, Biology, Atomic,
Go To : " Atomic - Paleontology -(Research - Paper) "
