Notes on Church-State Affairs
In: A journal of church and state: JCS, Band 37, Heft 3, S. 671-689
ISSN: 2040-4867
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In: A journal of church and state: JCS, Band 37, Heft 3, S. 671-689
ISSN: 2040-4867
In: Public personnel review: journal of the Public Personnel Association, Band 4, S. 254-259
ISSN: 0033-3638
In: Family relations, Band 48, Heft 4, S. 437
ISSN: 1741-3729
In: Defense analysis, Band 10, Heft 2, S. 181-208
ISSN: 0743-0175
World Affairs Online
In: Australian journal of public administration: the journal of the Royal Institute of Public Administration Australia, Band 48, Heft Sep 89
ISSN: 0313-6647
In: Materials and design, Band 186, S. 108346
ISSN: 1873-4197
In: Defense analysis, Band 10, Heft 2, S. 181-208
ISSN: 1470-3602
In: Defence science journal: DSJ, Band 46, Heft 4, S. 223-232
ISSN: 0011-748X
In: Revista mexicana de sociología, Band 37, Heft 4, S. 1123
ISSN: 2594-0651
In: Journal of the Society for Gynecologic Investigation: official publication of the Society for Gynecologic Investigation, Band 3, Heft 3, S. 152-157
ISSN: 1556-7117
In: Scientific African, Band 12, S. e00824
ISSN: 2468-2276
In: http://hdl.handle.net/2027/osu.32435002620573
Published anonymously. Dated January, 1861. ; Has also been attributed to Joseph C.G. Kennedy. ; Attributed to Stephen Colwell. Cf. Sabin and NUC pre-1956 imprints. ; Sabin ; Mode of access: Internet.
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"Catalogue of the newspapers and periodicals published in the United States . compiled . by the Hon. J.C.G. Kennedy . New-York, 1852": 1852, 56 p. at the end ; "Manual of the American legal association: containing its plan, constitution and secretary's report . New-York city, 1850": 1850, 31 p. at end ; Publisher varies ; Mode of access: Internet. ; Title varies: 1850, The United States lawyers' directory and official bulletin .; 1851-1858, Livingston's law register .; 1859-1860, Livingston's United States law register, and official directory .; 1866, The official directory and law register for the United States .; 1868, The law register; comprising the lawyers in the United States . ; FOR COMPLETE RECORD SEE CHECKLIST
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Knowing precisely where a spacecraft lands on Mars is important for understanding the regional and local context, setting, and the offset between the inertial and cartographic frames. For the InSight spacecraft, the payload of geophysical and environmental sensors also particularly benefits from knowing exactly where the instruments are located. A ~30 cm/pixel image acquired from orbit after landing clearly resolves the lander and the large circular solar panels. This image was carefully georeferenced to a hierarchically generated and coregistered set of decreasing resolution orthoimages and digital elevation models to the established positive east, planetocentric coordinate system. The lander is located at 4.502384°N, 135.623447°E at an elevation of −2,613.426 m with respect to the geoid in Elysium Planitia. Instrument locations (and the magnetometer orientation) are derived by transforming from Instrument Deployment Arm, spacecraft mechanical, and site frames into the cartographic frame. A viewshed created from 1.5 m above the lander and the high-resolution orbital digital elevation model shows the lander is on a shallow regional slope down to the east that reveals crater rims on the east horizon ~400 m and 2.4 km away. A slope up to the north limits the horizon to about 50 m away where three rocks and an eolian bedform are visible on the rim of a degraded crater rim. Azimuths to rocks and craters identified in both surface panoramas and high-resolution orbital images reveal that north in the site frame and the cartographic frame are the same (within 1°). ; With funding from the Spanish government through the "María de Maeztu Unit of Excellence" accreditation (MDM-2017-0737)
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Background: The COVID-19 pandemic has disrupted routine hospital services globally. This study estimated the total number of adult elective operations that would be cancelled worldwide during the 12 weeks of peak disruption due to COVID-19. Methods: A global expert response study was conducted to elicit projections for the proportion of elective surgery that would be cancelled or postponed during the 12 weeks of peak disruption. A Bayesian β-regression model was used to estimate 12-week cancellation rates for 190 countries. Elective surgical case-mix data, stratified by specialty and indication (surgery for cancer versus benign disease), were determined. This case mix was applied to country-level surgical volumes. The 12-week cancellation rates were then applied to these figures to calculate the total number of cancelled operations. Results: The best estimate was that 28 404 603 operations would be cancelled or postponed during the peak 12 weeks of disruption due to COVID-19 (2 367 050 operations per week). Most would be operations for benign disease (90·2 per cent, 25 638 922 of 28 404 603). The overall 12-week cancellation rate would be 72·3 per cent. Globally, 81·7 per cent of operations for benign conditions (25 638 922 of 31 378 062), 37·7 per cent of cancer operations (2 324 070 of 6 162 311) and 25·4 per cent of elective caesarean sections (441 611 of 1 735 483) would be cancelled or postponed. If countries increased their normal surgical volume by 20 per cent after the pandemic, it would take a median of 45 weeks to clear the backlog of operations resulting from COVID-19 disruption. Conclusion: A very large number of operations will be cancelled or postponed owing to disruption caused by COVID-19. Governments should mitigate against this major burden on patients by developing recovery plans and implementing strategies to restore surgical activity safely.
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