Your search keyword '"GRAVITATIONAL TORQUES"' showing total 3 results

1. Model of Oscillations of Earth’s Poles Based on Gravitational Tides

Author

Kumakshev, S. A., Franco, Abigail Jiménez, Series Editor, Karev, Vladimir, editor, Klimov, Dmitry, editor, and Pokazeev, Konstantin, editor

Published

2018

2. Efeitos de torques gravitacionais na dinâmica de asteróides múltiplos

Author

Boldrin, Luiz Augusto Guimarães [UNESP], Universidade Estadual Paulista (Unesp), and Winter, Othon Cabo [UNESP]

Subjects

Asteróides Múltiplos, Multiple asteroid, Gravitational torques, Asteroides - Orbitas, Mecânica celeste, Attitude motion, Movimento de atitude, Torques gravitacionais

Abstract

Made available in DSpace on 2014-06-11T19:25:29Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-05-27Bitstream added on 2014-06-13T20:33:08Z : No. of bitstreams: 1 boldrin_lag_me_guara.pdf: 3330498 bytes, checksum: 08e50694f19fe39f5f0bffa60c6c5946 (MD5) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) A compreensão do universo é um dos grandes desejos da humanidade desde o princípio, e o estudo do movimento dos corpos celestes é uma parte deste todo. Dentro deste contexto está nosso trabalho, que tem como meta o estudo da dinâmica de asteróides múltiplos do nosso sistema solar, sendo este composto pelo movimento de translação dos asteróides satélites (asteróides menores que orbitam um de maior porte) e o movimento de atitude do asteróide central (asteróide de maior porte). O estudo dos asteróides múltiplos é uma grande chave para o conhecimento do passado de nosso sistema solar, visto que os mesmos são remanescentes da formação dos planetas. Partindo dessa motivação, realizamos um trabalho sobre a dinâmica do sistema (87) Sylvia no qual estudamos por meio de simulações numéricas a dinâmica dos satélites de Sylvia perturbados por Sol e Júpiter (Winter et al, 2009). Neste estudo foi mostrado que Rômulo e Remo sofrem fortes perturbações seculares provenientes de Sol e Júpiter, que poderiam desestabilizá-los. Descobrimos também que o achatamento (J2) do corpo central é de extrema importância na estabilidade dos satélites. Partindo desse resultado, para este trabalho, decidimos fazer uma análise mais minuciosa do problema em questão. Para isso, nós realizamos simulações considerando o movimento de atitude do asteróide central, algo até agora não considerado por nós. Este movimento de atitude é perturbado pelos torques causados por seus satélites, Sol e planetas. Apresentaremos neste trabalho uma sucinta abordagem teórica de nosso modelo juntamente com uma revisão bibliográfica de alguns modelos analítico aproximados encontrados na literatura, alguns testes de nossa ferramenta computacional e um estudo de dois sistemas triplos de asteróides conhecidos. Os sistemas estudados foram (87) Sylvia e (45) Eugenia. Os resultados nos mostrou que... The understanding of the universe is one of the greats desires of humanity since the beginning, and the study of movement of celestial bodies is a part of it. Inside this context lies our work, which has as goal the study of the dynamics of multiple asteroids from our solar system, being this one compound of the movement of translation of the satellite asteroids (smaller asteroids which orbit one of larger size) and the movement of attitude of the central asteroid (largest size asteroid). The study of multiple asteroids is a great key for knowledge of our solar system past, since they are remaining objects of the formation of planets. Starting from that motivation, we developed a work about the dynamics of the system (87) Sylvia, in which we studied through numerical simulations the dynamics of Sylvia’s satellites perturbed by Sun and Jupiter (Winter et al, 2009). In this study, it has been shown that Romulus and Remus experience strong secular perturbations from Sun and Jupiter, which could destabilize them. We also found out that the flatness (J2) of the central body is of extreme importance in the stability of the satellites. Based on this result, for this work, we decided to do a closer analysis of the problem concerned. To do so, we developed simulations considering the movement of attitude of the central asteroid, which, so far, has not been considered by us. This movement of attitude is perturbed by torques caused by their satellites, Sun and planets. We will present in this work a brief theoretical approach of our model along with a bibliographic review of some approximate analytical models found in the literature, some tests of our computational tool and a study of two familiar triple systems of asteroids. The studied systems was (87) Sylvia and (45) Eugenia. The results has shown us that the movement of attitude of the central body experience great perturbation due to the Sun... (Complete abstract click electronic access below)

Published

2011

3. Grand design and flocculent spirals in the Spitzer survey of stellar structure in galaxies (S⁴G)

Author

Elmegreen, Debra Meloy, Elmegreen, Bruce G, Yau, Andrew, Athanassoula, E, Bosma, Albert, Buta, Ronald J, Helou, George, Ho, Luis C, Gadotti, Dimitri A, Knapen, Johan H, Laurikainen, Eija, Madore, Barry F, Masters, Karen L, van der Wel, Sharon Meidt, Menendez-Delmestre, Karin, Regan, Michael W, Salo, Heikki, Sheth, Kartik, Zaritsky, Dennis, Aravena, Manuel, Skibba, Ramin, Hinz, Joannah L, Laine, Jarkko, Gil de Paz, Armando, Munoz-Mateos, Juan-Carlos, Seibert, Mark, Mizusawa, Trisha, Kim, Taehyun, and Erroz Ferrer, Santiago

Subjects

GRAVITATIONAL TORQUES, WAVE RESONANCES, DUST-PENETRATED CLASSIFICATION, Astrophysics::Cosmology and Extragalactic Astrophysics, OPTICAL TRACERS, GALAXIES, spiral [galaxies], [infrared], Physics and Astronomy, DRIVING MECHANISMS, BARRED, photometry [galaxies], structure [galaxies], NEARBY GALAXIES, Astrophysics::Earth and Planetary Astrophysics, INFRARED SURFACE PHOTOMETRY, PATTERN SPEEDS, Astrophysics::Galaxy Astrophysics, BAND OBSERVATIONS

Abstract

Spiral arm properties of 46 galaxies in the Spitzer Survey of Stellar Structure in Galaxies (S(4)G) were measured at 3.6 mu m, where extinction is small and the old stars dominate. The sample includes flocculent, multiple arm, and grand design types with a wide range of Hubble and bar types. We find that most optically flocculent galaxies are also flocculent in the mid-IR because of star formation uncorrelated with stellar density waves, whereas multiple arm and grand design galaxies have underlying stellar waves. Arm-interarm contrasts increase from flocculent to multiple arm to grand design galaxies and with later Hubble types. Structure can be traced further out in the disk than in previous surveys. Some spirals peak at mid-radius while others continuously rise or fall, depending on Hubble and bar type. We find evidence for regular and symmetric modulations of the arm strength in NGC 4321. Bars tend to be long, high amplitude, and flat-profiled in early-type spirals, with arm contrasts that decrease with radius beyond the end of the bar, and they tend to be short, low amplitude, and exponential-profiled in late Hubble types, with arm contrasts that are constant or increase with radius. Longer bars tend to have larger amplitudes and stronger arms.

Published

2011