The Physics of God and the Quantum Gravity Theory of Everything

Analysis is given of the Omega Point cosmology, an extensively peer-reviewed proof (i.e., mathematical theorem) published in leading physics journals by professor of physics and mathematics Frank J. Tipler, which demonstrates that in order for the known laws of physics to be mutually consistent, the universe must diverge to infinite computational power as it collapses into a final cosmological singularity, termed the Omega Point. The theorem is an intrinsic component of the Feynman-DeWitt-Weinberg quantum gravity/Standard Model Theory of Everything (TOE) describing and unifying all the forces in physics, of which itself is also required by the known physical laws. With infinite computational resources, the dead can be resurrected--never to die again--via perfect computer emulation of the multiverse from its start at the Big Bang. Miracles are also physically allowed via electroweak quantum tunneling controlled by the Omega Point cosmological singularity. The Omega Point is a different aspect of the Big Bang cosmological singularity--the first cause--and the Omega Point has all the haecceities claimed for God in the traditional religions. From this analysis, conclusions are drawn regarding the social, ethical, economic and political implications of the Omega Point cosmology

Doctor of Philosophy

dissertationDigital image processing has wide ranging applications in combustion research. The analysis of digital images is used in practically every scale of studying combustion phenomena from the scale of individual atoms to diagnosing and controlling large-scale combustors. Digital image processing is one of the fastest-growing scientific areas in the world today. From being able to reconstruct low-resolution grayscale images from transmitted signals, the capabilities have grown to enabling machines carrying out tasks that would normally require human vision, perception, and reasoning. Certain applications in combustion science benefit greatly from recent advances in image processing. Unfortunately, since the two fields - combustion and image processing research - stand relatively far from each other, the most recent results are often not known well enough in the areas where they may be applied with great benefits. This work aims to improve the accuracy and reliability of certain measurements in combustion science by selecting, adapting, and implementing the appropriate techniques originally developed in the image processing area. A number of specific applications were chosen that cover a wide range of physical scales of combustion phenomena, and specific image processing methodologies were proposed to improve or enable measurements in studying such phenomena. The selected applications include the description and quantification of combustion-derived carbon nanostructure, the three-dimensional optical diagnostics of combusting pulverized-coal particles and the optical flow velocimetry and quantitative radiation imaging of a pilot-scale oxy-coal flame. In the field of the structural analysis of soot, new structural parameters were derived and the extraction and fidelity of existing ones were improved. In the field of pulverized-coal combustion, the developed methodologies allow for studying the detailed mechanisms of particle combustion in three dimensions. At larger scales, the simultaneous measurement of flame velocity, spectral radiation, and pyrometric properties were realized

Functional and structural impact of the loss of the leucine-rich repeat protein LRIT1 in the mouse retina.

Mutations in genes encoding the leucine-rich repeat (LRR) proteins nyctalopin and LRIT3 lead to complete congenital stationary night blindness because they are critical to depolarizing bipolar cell function in the retina. LRIT3 has two closely related family members, LRIT1 and LRIT2. In silico analyses of publicly available RNA-Seq data showed that Lrit1 was highly expressed in the retina. Here I describe the expression pattern and impact of loss of LRIT1 on retinal function. To enable these studies, we used CRISPR/Cas9 technology to create an Lrit1-/- mouse line. Retinal morphology and morphometry analyses showed no gross changes in retinal structure or retinal layer thickness. Immunohistochemistry (IHC) shows photoreceptor, ON bipolar cell, and horizontal cell proteins localize normally in the absence of LRIT1. These data suggest LRIT1 is unnecessary for normal retinal and synaptic development. IHC also reveals LRIT1 localizes to the OPL with punctate staining similar to proteins expressed in invaginating horizontal cells at rod spherules but does not co-localize with ON or OFF bipolar cell proteins. RNA in situ hybridization shows Lrit1 expression in the ONL and INL, suggesting LRIT1 may also be expressed in photoreceptors. We used electroretinogram analyses to assess retinal function in Lrit1-/- mice and demonstrate that the a- and b-waves are decreased in amplitude under both scotopic and photopic conditions. Multi-electrode array recordings of Lrit1-/- retinal ganglion cells demonstrated abnormal ganglion cell responses and rhythmic oscillations. Taken together, our data localize LRIT1 to the OPL of the mouse retina where the loss of LRIT1 results in abnormal outer and inner retinal function without altering retinal structure. Thus, LRIT1 is critical for normal retinal signaling

Malignant melanoma of the urethra: a rare histologic subdivision of vulvar cancer with a poor prognosis

Malignant melanoma of the urethra is a rare tumour that is difficult to diagnose and treat, resulting in a poor prognosis. In this paper, we present the case of a 65-year-old woman who was referred to a gynaecologist because of a urethral mass that mimicked a caruncle. The tumour was removed by local excision, and a pathological analysis revealed a malignant melanoma. Distal urethrectomy was performed after three months with no evidence of residual tumour. There was no evidence of disease at a six-year followup. In this paper, we compare the epidemiology, treatment, staging, and prognosis of vulvar cancer in general to malignant melanoma of the vulva in particular

The Twenty-Fifth Lunar and Planetary Science Conference. Part 2: H-O

Various papers on lunar and planetary science are presented, covering such topics as: planetary geology, lunar geology, meteorites, shock loads, cometary collisions, planetary mapping, planetary atmospheres, chondrites, chondrules, planetary surfaces, impact craters, lava flow, achondrites, geochemistry, stratigraphy, micrometeorites, tectonics, mineralogy, petrology, geomorphology, and volcanology

Fortieth Lunar and Planetary Science Conference

Special sessions on Lunar Missions, Messenger at Mercury, and Icy Satellites of Jupiter and Saturn were held. This CD-ROM contains the contents, program, abstracts, and author indexes for the 40th Lunar and Planetary Science Conference.sponsored by Lunar and Planetary Institute, NASA Johnson Space Centerconference co-chairs, Stephen J. Mackwell, Eileen StansberyPARTIAL CONTENTS: Equilibrated Aggregates in Cometary IDPs: Insights into the Crystallization Process in Protoplanetary Disks / L.P. Keller and S. Messenger--The Impact Crater Jebel Waqf as Suwwan in Jordan: Effects of Target Heterogeneity and Impact Obliquity on Central Uplift Formation / T. Kenkmann, W.U. Reimold, M. Khirfan, E. Salameh, K. Konsul, T. Lehmann, and H. Khoury--The Dispersal of Pyroclasts from Apollinaris Patera, Mars / L. Kerber, J.W. Head, J.B. Madeleine, F. Forget, and L. Wilson--The Age of the Medusae Fossae Formation: Reassessment Using Lava Flow Cast and Mold Contacts / L. Kerber and J.W. Head III--Possible Liquid-like Water Produced Seepage Features on Mars / A. Kereszturi, A. Horváth, A. Sik, A. Kuti, Sz. Bérczi, T. Gánti, T. Pócs, and E. Szathmáry