Considerando apenas os algarismos 0, 3, 5, 7 e 9, assinale a alternativa que apresenta a quantidade de números de 4 algarismos que podem ser formados que são múltiplos de 5.
Read the text below to answer the questions 11-15.
NASA Researchers Studying Advanced Nuclear
Rocket Technologies
January 9, 2013
By using an innovative test facility at NASA's Marshall
Space Flight Center in Huntsville, Ala., researchers are able to
use non-nuclear materials to simulate nuclear thermal rocket
fuels – ones capable of propelling bold new exploration missions
to the Red Planet and beyond. The Nuclear Cryogenic
Propulsion Stage team is tackling a three-year project to
demonstrate the viability of nuclear propulsion system
technologies. A nuclear rocket engine uses a nuclear reactor to
heat hydrogen to very high temperatures, which expands
through a nozzle to generate thrust. Nuclear rocket engines
generate higher thrust and are more than twice as efficient as
conventional chemical rocket engines.
The team recently used Marshall's Nuclear Thermal
Rocket Element Environmental Simulator, or NTREES, to
perform realistic, non-nuclear testing of various materials for
nuclear thermal rocket fuel elements. In an actual reactor, the
fuel elements would contain uranium, but no radioactive
materials are used during the NTREES tests. Among the fuel
options are a graphite composite and a "cermet" composite – a
blend of ceramics and metals. Both materials were investigated
in previous NASA and U.S. Department of Energy research
efforts.
Nuclear-powered rocket concepts are not new; the United
States conducted studies and significant ground testing from
1955 to 1973 to determine the viability of nuclear propulsion
systems, but ceased testing when plans for a crewed Mars
mission were deferred.
The NTREES facility is designed to test fuel elements and
materials in hot flowing hydrogen, reaching pressures up to
1,000 pounds per square inch and temperatures of nearly 5,000
degrees Fahrenheit – conditions that simulate space-based
nuclear propulsion systems to provide baseline data critical to
the research team.
"This is vital testing, helping us reduce risks and costs
associated with advanced propulsion technologies and ensuring
excellent performance and results as we progress toward further
system development and testing," said Mike Houts, project
manager for nuclear systems at Marshall.
A first-generation nuclear cryogenic propulsion system
could propel human explorers to Mars more efficiently than
conventional spacecraft, reducing crews' exposure to harmful
space radiation and other effects of long-term space missions. It
could also transport heavy cargo and science payloads. Further
development and use of a first-generation nuclear system could
also provide the foundation for developing extremely advanced
propulsion technologies and systems in the future – ones that
could take human crews even farther into the solar system.
Building on previous, successful research and using the
NTREES facility, NASA can safely and thoroughly test simulated
nuclear fuel elements of various sizes, providing important test
data to support the design of a future Nuclear Cryogenic
Propulsion Stage. A nuclear cryogenic upper stage – its liquidhydrogen
propellant chilled to super-cold temperatures for
launch – would be designed to be safe during all mission phases
and would not be started until the spacecraft had reached a safe
orbit and was ready to begin its journey to a distant destination.
Prior to startup in a safe orbit, the nuclear system would be cold,
with no fission products generated from nuclear operations, and
with radiation below significant levels.
"The information we gain using this test facility will permit
engineers to design rugged, efficient fuel elements and nuclear
propulsion systems," said NASA researcher Bill Emrich, who
manages the NTREES facility at Marshall. "It's our hope that it
will enable us to develop a reliable, cost-effective nuclear rocket
engine in the not-too-distant future."
The Nuclear Cryogenic Propulsion Stage project is part of
the Advanced Exploration Systems program, which is managed
by NASA's Human Exploration and Operations Mission
Directorate and includes participation by the U.S. Department of
Energy. The program, which focuses on crew safety and mission
operations in deep space, seeks to pioneer new approaches for
rapidly developing prototype systems, demonstrating key
capabilities and validating operational concepts for future vehicle
development and human missions beyond Earth orbit.
Marshall researchers are partnering on the project with
NASA's Glenn Research Center in Cleveland, Ohio; NASA's
Johnson Space Center in Houston; Idaho National Laboratory in
Idaho Falls; Los Alamos National Laboratory in Los Alamos,
N.M.; and Oak Ridge National Laboratory in Oak Ridge, Tenn.
The Marshall Center leads development of the Space
Launch System for NASA. The Science & Technology Office at
Marshall strives to apply advanced concepts and capabilities to
the research, development and management of a broad
spectrum of NASA programs, projects and activities that fall at
the very intersection of science and exploration, where every
discovery and achievement furthers scientific knowledge and
understanding, and supports the agency's ambitious mission to
expand humanity's reach across the solar system. The NTREES
test facility is just one of numerous cutting-edge space
propulsion and science research facilities housed in the state-ofthe-art
Propulsion Research & Development Laboratory at
Marshall, contributing to development of the Space Launch
System and a variety of other NASA programs and missions.
Available in: http://www.nasa.gov
Read the following sentence taken from the text. “Nuclear rocket engines generate higher thrust and are more than twice as efficient as conventional chemical rocket engines.” It is correct to affirm that the adjectives in bold and underlined are, respectively,
Read the text below to answer questions 16-20.
Background
The Naval Nuclear Propulsion Program (NNPP) started in
1948. Since that time, the NNPP has provided safe and effective
propulsion systems to power submarines, surface combatants,
and aircraft carriers. Today, nuclear propulsion enables virtually
undetectable US Navy submarines, including the sea-based leg
of the strategic triad, and provides essentially inexhaustible
propulsion power independent of forward logistical support to
both our submarines and aircraft carriers. Over forty percent of
the Navy's major combatant ships are nuclear-powered, and
because of their demonstrated safety and reliability, these ships
have access to seaports throughout the world. The NNPP has
consistently sought the best way to affordably meet Navy
requirements by evaluating, developing, and delivering a variety
of reactor types, fuel systems, and structural materials. The
Program has investigated many different fuel systems and
reactor design features, and has designed, built, and operated
over thirty different reactor designs in over twenty plant types to
employ the most promising of these developments in practical
applications. Improvements in naval reactor design have allowed
increased power and energy to keep pace with the operational
requirements of the modern nuclear fleet, while maintaining a
conservative design approach that ensures reliability and safety
to the crew, the public, and the environment. As just one
example of the progress that has been made, the earliest
reactor core designs in the NAUTILUS required refueling after
about two years while modern reactor cores can last the life of a
submarine, or over thirty years without refueling. These
improvements have been the result of prudent, conservative
engineering, backed by analysis, testing, and prototyping. The
NNPP was also a pioneer in developing basic technologies and
transferring technology to the civilian nuclear electric power
industry. For example, the Program demonstrated the feasibility
of commercial nuclear power generation in this country by
designing, constructing and operating the Shipping port Atomic
Power Station in Pennsylvania and showing the feasibility of a
thorium-based breeder reactor.
In: Report on Low Enriched Uranium for Naval Reactor Cores. Page 1.
Report to Congress, January 2014.
Office of Naval Reactors. US Dept. of Energy. DC 2058
http://fissilematerials.org/library/doe14.pdf
Read the passage taken of the text below.
“The Naval Nuclear Propulsion Program (NNPP) started in
1948.Since that time, the NNPP has provided safe and
effective propulsion systems to power submarines, surface
combatants, and aircraft carriers. Today, nuclear propulsion
enables virtually undetectable US Navy submarines, including
the sea-based leg of the strategic triad, and provides essentially
inexhaustible propulsion power independent of forward
logistical support to both our submarines and aircraft carriers."
Choose the alternative in which the words can properly
substitute the ones in bold and underlined, respectively.
São consideradas disfunções da Teoria da Burocracia, exceto:
Inúmeros são os desafios impostos à Gestão do Conhecimento, como o mapeamento de informações, a mensuração dos resultados obtidos por meio de sua aplicação e o compartilhamento dos conhecimentos. Segundo Santos (2004, apud SOUZA, 2006, p.7), o compartilhamento pode ser favorecido por meio da adoção de práticas como I.desenvolvimento das competências humanas internas. II.criação de ambientes que estimulem a aprendizagem. III.gestão adequada de pessoas. IV.estímulo ao desenvolvimento de comunidades virtuais. É correto o que está contido em
Na avaliação de desempenho, o “Efeito de Halo” pode ser entendido como o(a)
A respeito do recrutamento interno, analise as assertivas abaixo. I.É indicado para o enriquecimento rápido e intenso do capital intelectual. II.Motiva e encoraja o desenvolvimento profissional dos atuais funcionários. III.Altamente recomendado para situações de estabilidade e pouca mudança ambiental, bem como para empresas mecanizadas e burocráticas. IV.Promove o aproveitamento e a potencialização do capital intelectual da organização. É correto o que se afirma em
Considerando a Lei nº 12.506/2011, um trabalhador admitido em 1º de agosto de 1994 que tenha sido demitido sem justa causa em 27 de julho de 2013 com uma remuneração de R$3.300,00, receberá a título de aviso prévio
Correlacione os significados com seus respectivos termos técnicos, aplicados à área de Recursos Humanos, e, em seguida, assinale a alternativa que apresenta a sequência correta. ( ) Gratificações concedidas a servidores públicos. ( ) Representante legal da empresa junto aos órgãos do trabalho. ( ) Trabalho em ambiente nocivo à saúde. ( ) Atividade em ambiente perigoso à vida. 1.Insalubridade. 2.Propter laborem. 3.Periculosidade. 4.Preposto.
Com base em Chiavenato (2009, p.123), as práticas de Gestão do Conhecimento, embora recentes no cenário empresarial, vêm se impondo como um instrumento estratégico no sucesso de todo negócio, sobretudo, quando se percebe a velocidade das mudanças dos mercados, hoje globalizados, e da movimentação das pessoas que os povoam. Ao desligar-se da empresa, independentemente do motivo, um empregado leva consigo todo o conhecimento adquirido ao longo de sua “estada”. Quanto à definição de Gestão do Conhecimento, assinale a alternativa correta.
Dentre as diversas ferramentas tecnológicas aplicadas no processo de desenvolvimento de pessoas, destaca-se a aplicação de coaching e mentoring. Sobre esse assunto, analise as assertivas abaixo. I.Coaching é um tipo de relacionamento no qual o coach se compromete a apoiar e a ajudar o aprendiz para que este atinja determinado resultado. II.Mentoring significa a participação de uma pessoa experiente – e geral do ambiente interno – para ensinar e preparar outra pessoa com menos conhecimento. III.A relação mentor e orientado é uma relação entre padrinho e afilhado, entre mestre e pupilo, entre benfeitor e premiado. IV.Coaching e mentoring são programas distintos, e sua aplicação está condicionada ao tipo de empresa, já que o primeiro só pode ser realizado por meio de uma consultoria e o segundo é recomendado apenas a empresas com elevado número de colaboradores em via de se aposentar. É correto o que se afirma em
Por se tratar de uma ferramenta de aprimoramento e inovação, o treinamento faz uso de diversas tecnologias, dentre elas, o ensino a distância, em que a aprendizagem dar-se-á por meio da abordagem síncrona, assíncrona ou híbrida, sendo a assíncrona aquela que
Quanto à cultura organizacional, analise as assertivas
abaixo.
I.A cultura equivale ao modo de vida da organização,
tais como suas crenças, costumes, regras, ideias
etc..
II.Diz respeito a um sistema de significados
compartilhados pelos membros da organização.
III.O imaginário organizacional pressupõe uma
representação mental e simbólica que norteará as
atitudes de seus integrantes e sua relação com o
trabalho, consigo mesmo e com os outros.
IV.Cada organização constitui uma cultura única
gerada e sustentada pelos mais diversos elementos
internos de toda organização, que se sustentam sem
a intervenção do meio externo.
É correto o que se afirma em
José de Souza, admitido em 1º de agosto de 2010, tem direito a férias referentes ao período aquisitivo de 1º/08/2013 a 31/07/2014. Sabendo-se que sua remuneração mensal é de R$900,00, que José não tem dependentes, que gozará suas férias de 1º/04/2015 a 30/04/2015, e que teve 6 (seis) faltas justificadas no período, seu recibo de férias apresentará, respectivamente, os seguintes valores para férias, acréscimo constitucional, total da remuneração de férias, INSS (8%) e IRRF:
João trabalha em uma loja de venda de telefones celulares. No dia 30 de novembro, João foi convocado pelo chefe de seu departamento a trabalhar até as 23h00min para contagem de estoque. Sabendo que seu expediente normal de trabalho é até as 19h00min e que a loja formalizou acordo de compensação de horas trabalhadas, assinale a alternativa que apresenta a forma como João receberá pelas horas excedentes.