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Science and navigation in England, 1660-1714Beaumont, Stephen K., January 1971 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1971. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.
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Daylight star observations for position and azimuth in AntarcticaAlbright, John Carter, January 1967 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1967. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.
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L'astronomie nautique au XVIIIème siècle en France tables de la lune et longitudes en mer /Boistel, Guy. January 2001 (has links)
Originally presented as the author's Thesis (doctoral)--Université de Nantes, 2001.
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L'astronomie nautique au XVIIIème siècle en France tables de la lune et longitudes en mer /Boistel, Guy. January 2001 (has links)
Originally presented as the author's Thesis (doctoral)--Université de Nantes, 2001.
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From longitude to empire the articulations of place in the voyages of Captain Cook /Richardson, Brian William, January 2001 (has links)
Thesis (Ph. D.)--University of Hawaii, 2001. / Includes bibliographical references (leaves 486-500). Also available on microfiche.
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Biomass conversion models for selected pines in the southern United StatesDriskill, Chris 13 August 2024 (has links) (PDF)
Current carbon and bioenergy markets shifted the focus of typical forest attribute estimation from volume to biomass. We used multiple linear regression and the dataset collected as part of the National Scale Volume and Biomass modeling effort to develop biomass prediction models for Pinus taeda L., Pinus elliottii Engelm. var. elliottii, Pinus echinata Mill., and Pinus palustris Mill. In addition to utilizing traditional forest measurements such as diameter at breast height and total tree height, biomass was estimated as functions of volume, latitude, and longitude. We also evaluated the differences in wood density by geographic location for these species. The best results were obtained when models were fitted using the combined dataset and a log transformed model. Wood density estimates were improved by including latitude and longitude in the model. These findings will be useful to managers seeking improved biomass yield estimates and density by geographic regions.
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The wanton line : Hogarth and the public life of longitudeBarrett, Katy Louise Emily January 2014 (has links)
No description available.
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Estudos sobre as defasagens de Prometeu e Pandora / Studies about the lags of Prometheus and PandoraSantana, Thamiris de [UNESP] 23 February 2015 (has links) (PDF)
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000833337.pdf: 2142013 bytes, checksum: 3f893ea77ac33507cb859a6e7a01ff23 (MD5) / Dados observacionais obtidos em 1995 durante a passagem da Terra pelo plano dos anéis de Saturno indicaram defasagens angulares nas posições previstas de Prometeu e Pandora. Usando dados adicionais as defasagens foram confirmadas com Prometeu cerca de -19º de sua longitude prevista e Pandora cerca de +25º. Uma possível relação caótica provocada pela ressonância 121:118 de movimento médio entre os dois satélites é atualmente aceita para explicar essas defasagens (Goldreich & Rappaport 2003b). Entretanto, um trabalho alternativo que analisa as evoluções temporais dos semieixos maiores dos satélites propõe que essas defasagens são consequência de dados iniciais não ideais que pertencem a um momento muito específico e não representam o comportamento dos satélites a maior parte do tempo (Cruz 2004). Neste trabalho reanalisamos as defasagens de Prometeu e Pandora por meio do estudo detalhado dos dois trabalhos citados, testando analítica e numericamente seus principais resultados. Os nossos resultados indicam que as defasagens observadas são originarias da utilização de uma condição inicial do momento de anti-alinhamento dos periapses orbitais dos satélites, que uma vez relacionados pela ressonância 121:118, geram as defasagens. É proposta uma maneira de mensurar a massa do anel F a partir do modelo dinâmico desenvolvido no trabalho, que resultou em um limite superior de massa demasiadamente grande para ser considerado. Além disso, partindo de um estudo da conservação angular, mensuramos novas densidades para Prometeu e Pandora de [0; 85 - 0; 99]g cm-³ e [0; 62 - 0; 85]g cm-³,respectivamente / Observational data collected in 1995 during the passage of the Earth by the ring plane of Saturn indicated angular lags in the predicted positions of Prometheus and Pandora. Using additional data these lags were confirmed, with Prometheus being about -19º of their estimated longitude and Pandora about 25º. A possible chaotic relationship due to a 121:118 mean motion resonance between the two satellites is currently accepted to explain those lags (Goldreich & Rappaport 2003b). However, an alternative work analyses the temporal evolution of the satellites semi-major axes and suggests that these lags are the result of non-ideal initial data which corresponds to a particular time and do not represent the behavior of satellites most of the time (Cruz 2004). In this work, we reanalyzed the lags of Prometheus and Pandora through a detailed study of the two aforementioned papers, testing analytically and numerically their main results. The results indicate that the observed lag originate from an initial condition corresponding to the time alignment of anti-periapses orbital of the satellites, once their are related by the 121: 118 mean motion resonance, they generate lags. It is proposed a way to measure the mass of the F-ring, which is still unknown, from the dynamic model developed in this work, resulting in an excessively large mass of the upper limit to be considered. In addition, from a study of the angular momentum conservation, we measure new densities for Prometheus and Pandora as [0:85 - 0:99]g cm-³ and [0:62 - 0:85]g cm-³, respectively
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Estudos sobre as defasagens de Prometeu e Pandora /Santana, Thamiris de. January 2015 (has links)
Orientador: Othon Cabo Winter / Coorientador: Décio Cardozo Mourão / Banca: Roberto Vieira Martins / Banca: Silvia Maria Giuliatti / Resumo: Dados observacionais obtidos em 1995 durante a passagem da Terra pelo plano dos anéis de Saturno indicaram defasagens angulares nas posições previstas de Prometeu e Pandora. Usando dados adicionais as defasagens foram confirmadas com Prometeu cerca de -19º de sua longitude prevista e Pandora cerca de +25º. Uma possível relação caótica provocada pela ressonância 121:118 de movimento médio entre os dois satélites é atualmente aceita para explicar essas defasagens (Goldreich & Rappaport 2003b). Entretanto, um trabalho alternativo que analisa as evoluções temporais dos semieixos maiores dos satélites propõe que essas defasagens são consequência de dados iniciais não ideais que pertencem a um momento muito específico e não representam o comportamento dos satélites a maior parte do tempo (Cruz 2004). Neste trabalho reanalisamos as defasagens de Prometeu e Pandora por meio do estudo detalhado dos dois trabalhos citados, testando analítica e numericamente seus principais resultados. Os nossos resultados indicam que as defasagens observadas são originarias da utilização de uma condição inicial do momento de anti-alinhamento dos periapses orbitais dos satélites, que uma vez relacionados pela ressonância 121:118, geram as defasagens. É proposta uma maneira de mensurar a massa do anel F a partir do modelo dinâmico desenvolvido no trabalho, que resultou em um limite superior de massa demasiadamente grande para ser considerado. Além disso, partindo de um estudo da conservação angular, mensuramos novas densidades para Prometeu e Pandora de [0; 85 - 0; 99]g cm-³ e [0; 62 - 0; 85]g cm-³,respectivamente / Abstract: Observational data collected in 1995 during the passage of the Earth by the ring plane of Saturn indicated angular lags in the predicted positions of Prometheus and Pandora. Using additional data these lags were confirmed, with Prometheus being about -19º of their estimated longitude and Pandora about 25º. A possible chaotic relationship due to a 121:118 mean motion resonance between the two satellites is currently accepted to explain those lags (Goldreich & Rappaport 2003b). However, an alternative work analyses the temporal evolution of the satellites semi-major axes and suggests that these lags are the result of non-ideal initial data which corresponds to a particular time and do not represent the behavior of satellites most of the time (Cruz 2004). In this work, we reanalyzed the lags of Prometheus and Pandora through a detailed study of the two aforementioned papers, testing analytically and numerically their main results. The results indicate that the observed lag originate from an initial condition corresponding to the time alignment of anti-periapses orbital of the satellites, once their are related by the 121: 118 mean motion resonance, they generate lags. It is proposed a way to measure the mass of the F-ring, which is still unknown, from the dynamic model developed in this work, resulting in an excessively large mass of the upper limit to be considered. In addition, from a study of the angular momentum conservation, we measure new densities for Prometheus and Pandora as [0:85 - 0:99]g cm-³ and [0:62 - 0:85]g cm-³, respectively / Mestre
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Automatically determine route and mode of tranport using a gps enabled phoneGilani, Himanshu 01 June 2005 (has links)
A system consisting of a GPS-enabled phone and a database has been designed and implemented. This system is capable of recording the route traveled by a user and determining the mode of transport (walk, bicycle, car or bus) used. The Java code running in the GPS-enabled phone automatically records location data, determines critical locations for the trip, and transmits the locations to a central database using the wireless capabilities of the phone. As the route information arrives at the database, it is processed by the mode detection algorithm that determines the mode of transportation being used by the individual for this route. The mode detection algorithm uses travel time, speed, location of bus stops and knowledge of bus routes. The system was tested on experimental data collected from 100 trips (25 trips for each mode of transportation). The correct mode of transport was detected on 97% of the trips.
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