The Scientific Accuracy of the Sacred Scriptures

2021 ◽  
pp. 121-138
Author(s):  
D. D. W. B. Riley
Keyword(s):  
Genetics ◽  
1999 ◽  
Vol 152 (3) ◽  
pp. 1229-1240
Author(s):  
Kara E Koehler ◽  
R Scott Hawley

Abstract In contrast to the more typical mock grant proposals or literature reviews, we describe the use of the creative essay as a novel tool for teaching human genetics at the college level. This method has worked well for both nonmajor and advanced courses for biology majors. The 10- to 15-page essay is written in storylike form and represents a student's response to the choice of 6–8 scenarios describing human beings coping with various genetic dilemmas. We have found this tool to be invaluable both in developing students' ability to express genetic concepts in lay terms and in promoting student awareness of genetic issues outside of the classroom. Examples from student essays are presented to illustrate these points, and guidelines are suggested regarding instructor expectations of student creativity and scientific accuracy. Methods of grading this assignment are also discussed.


2012 ◽  
Vol 20 (3) ◽  
pp. 211-215 ◽  
Author(s):  
Sana R. Sukkari ◽  
Abdullah S. Al Humaidan ◽  
Larry D. Sasich

1866 ◽  
Vol 5 ◽  
pp. 198-199
Author(s):  
C. Piazzi Smyth

This paper was an attempt to submit to a severe and searching examination, the very new and apparently important ideas contained in the work, published four years ago by Mr John Taylor of London, and entitled “The Great Pyramid; why was it Built?” To this end, the original authorities for measures of the Pyramid, had been extensively referred to, from Professor John Greaves in the 17th century, down to Colonel Howard Vyse and Dr Lepsius in the 19th; and their various and sometimes conflicting numerical statements had been computed with all due attention to scientific accuracy, as well as every endeavour to eliminate both personal and other sources of error in tbe observations.


Author(s):  
D. D. Lucas ◽  
C. Yver Kwok ◽  
P. Cameron-Smith ◽  
H. Graven ◽  
D. Bergmann ◽  
...  

Abstract. Emission rates of greenhouse gases (GHGs) entering into the atmosphere can be inferred using mathematical inverse approaches that combine observations from a network of stations with forward atmospheric transport models. Some locations for collecting observations are better than others for constraining GHG emissions through the inversion, but the best locations for the inversion may be inaccessible or limited by economic and other non-scientific factors. We present a method to design an optimal GHG observing network in the presence of multiple objectives that may be in conflict with each other. As a demonstration, we use our method to design a prototype network of six stations to monitor summertime emissions in California of the potent GHG 1,1,1,2-tetrafluoroethane (CH2FCF3, HFC-134a). We use a multiobjective genetic algorithm to evolve network configurations that seek to jointly maximize the scientific accuracy of the inferred HFC-134a emissions and minimize the associated costs of making the measurements. The genetic algorithm effectively determines a set of "optimal" observing networks for HFC-134a that satisfy both objectives (i.e., the Pareto frontier). The Pareto frontier is convex, and clearly shows the tradeoffs between performance and cost, and the diminishing returns in trading one for the other. Without difficulty, our method can be extended to design optimal networks to monitor two or more GHGs with different emissions patterns, or to incorporate other objectives and constraints that are important in the practical design of atmospheric monitoring networks.


1905 ◽  
Vol 40 (2) ◽  
pp. 263-293
Author(s):  
E. G. Coker

The behaviour of metals under stress has long been the subject of investigation, both by mathematicians and physicists, so that the laws of strength are tolerably complete. Owing to the importance of iron and steel in construction, these materials have been subjected to very extensive tests, particularly in simple tension and compression.Numerous tests of cylindrical iron and steel bars in torsion are also available, the bulk of these being tests to destruction of samples of material used in actual machines and structures designed by engineers. In such tests scientific accuracy is not of much importance, the chief consideration being the obtaining of sufficient data for use in design. The most accurate torsional work upon iron and steel has been the work of physicists, and nearly all their investigations have been conducted upon specimens of very small sectional area; the reasons for this, no doubt, being that such specimens in the form of wires are easily obtainable, and of great uniformity in size and quality, while large test pieces are costly to prepare, and, moreover, cause considerable difficulty in testing, because of the magnitude of the forces involved. Owing to the mode of manufacture, the physical properties of wire often differ to a considerable extent from turned specimens of iron and steel. These differences may be caused by the hardening effect of the drawing, minute cracks in the wires, want of roundness, and the like. It therefore appeared probable that experiments on the lines indicated by physicists would be of some service, and it was with this idea that the investigation was commenced.


2021 ◽  
Vol 135 (4) ◽  
pp. 724-727
Author(s):  
C. Philip Larson

The Solubility of Halothane in Blood and Tissue Homogenates. By Larson CP, Eger EI, Severinghaus JW. Anesthesiology 1962; 23:349–55. Measured samples of human and bovine blood, human hemoglobin, and tissue homogenates from human fat and both human and bovine liver, kidney, muscle, whole brain, and separated gray and white cortex were added to stoppered 2,000-ml Erlenmeyer flasks. To each flask, 0.1 ml of liquid halothane was added under negative pressure using a calibrated micropipette. After the flask was agitated for 2 to 4 h to achieve equilibrium between the gas and blood or tissue contents, a calibrated infrared halothane analyzer was used to measure the concentration of halothane vapor. Calculated partition coefficients ranged from 0.7 for water to 2.3 for blood and from 3.5 for human or bovine kidney to 6 for human whole brain or liver and 8 for human muscle. Human peritoneal fat had a value of 138. The human blood–gas partition coefficient of 2.3 as determined by this equilibration method was well below the previously published value of 3.6.


PEDIATRICS ◽  
1964 ◽  
Vol 33 (4) ◽  
pp. 632-632
Author(s):  
MALCOLM A. HOLLIDAY

It is not often that a medical textbook contains the qualities of a fresh style in writing, lucidity, and due respect for scientific accuracy. Dr. Christensen achieves this in the book Diagnostic Biochemistry and now in the shorter paper-bound version. Each chapter deals with a physico-chemical aspect of body fluids and relates it to clinical chemistry and to clinical disease. At the end of each chapter one finds a series of questions, not very easy ones at that, to provoke the intellectually curious into thought and library research.


1911 ◽  
Vol 57 (236) ◽  
pp. 1-18
Author(s):  
Hugh Morton

Within recent years it has become a recognised practice to perform lumbar puncture on cases suffering from cerebro-spinal disease; the practical value of the procedure is generally admitted as an aid to diagnosis; and in some diseases, such as tetanus and cerebro-spinal meningitis, the operation is resorted to for therapeutic purposes. It must, however, be admitted that it is only in such diseases of the cerebro-spinal system as are due to the presence of well-recognised organisms that the diagnostic value of lumbar puncture approaches scientific accuracy, in such diseases, for example, as tubercular meningitis, cerebro-spinal fever, pneumococcal meningitis, and sleeping-sickness. The value to be attached to an examination of the fluid for the syphilitic reaction is minimised when one considers that for this test the blood-serum is preferable.


2015 ◽  
Vol 4 (4) ◽  
pp. 80 ◽  
Author(s):  
Gemma Musacchio ◽  
Tiziana Lanza ◽  
Giuliana D’Addezio

<p>The present paper describes an experience of science theatre addressed to children of primary and secondary school, with the main purpose of making them acquainted with a topic, the interior of the Earth, largely underestimated in compulsory school curricula worldwide. A not less important task was to encourage a positive attitude towards natural hazards that are here presented as an expression of our planet vitality. We conducted the experience with the help of a theatrical company specialized in shows for children, trying to merge scientific accuracy, entertainment and ethical issues. Several performances have been reiterated in different context, giving us the opportunity of conducting a preliminary survey with a public of different ages, skills and expectations. Results suggest that science theatre, while relying on creativity and emotional learning has the potential to raise children interest on the process of making science, on natural phenomena and may trigger a positive attitude on natural disasters reduction best practices.</p>


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