Questões Militares de Inglês

Foram encontradas 4.268 questões

Q677502 Inglês

A frase a seguir apresenta 5 (cinco) palavras sublinhadas, dentre as quais uma está ERRADA, tornando a frase gramaticalmente incorreta. Marque a alternativa que torna a frase gramaticalmente INCORRETA.

 People pursue technology for a living because they are passionate about making things, making things better, and making a difference in the world. Today's engineers need the knowledge to tackle classics engineering problems, but also the sensitivity to understand the social impact of technology on people and the environment.

Alternativas
Q677501 Inglês

A frase a seguir apresenta 5 (cinco) palavras sublinhadas, dentre as quais uma está ERRADA, tornando a frase gramaticalmente incorreta. Marque a alternativa que torna a frase gramaticalmente INCORRETA. 

Did you know that your car probably has more software running in it than the latest military fighter jets? Or that it has fifty or more embedded microprocessors that control everything from meeting governmental emission-control standards for automatically increasing the volume of your radio as you drive faster?

Alternativas
Q677500 Inglês

A frase a seguir apresenta 5 (cinco) palavras sublinhadas, dentre as quais uma está ERRADA, tornando a frase gramaticalmente incorreta. Marque a alternativa que torna a frase gramaticalmente INCORRETA. 

Crafting clever toys, making beautiful music, lighting up the South Pacific – the ten technologists in our special report has engineered exciting careers that melt their passions with their professions.

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677434 Inglês

                   

Considere as seguintes afirmações:

I. As listas verticais indicadas afinam a silhueta.

II. A figura mostra sapatos que não se desgastam com o tempo.

III. Inactive Wear é apropriada para praticantes de exercícios físicos.

Está(ão) correta(s):

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677433 Inglês

                   

Assinale a opção que NÃO descreve benefícios apontados na figura.
Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677432 Inglês

     In August of 2000, a Japanese scientist named Toshiyuki Nakagaki announced that he had trained an amoebalike organism called slime mold to find the shortest route through a maze. Nakagaki had placed the mold in a small maze comprising four possible routes and planted pieces of food at two of the exits. Despite its being an incredibly primitive organism (a close relative of ordinary fungi) with no centralized brain whatsoever, the slime mold managed to plot the most efficient route to the food, stretching its body through the maze so that it connected directly to the two food sources. Without any apparent cognitive resources, the slime mold had “solved” the maze puzzle.

     For such a simple organism, the slime mold has an impressive intellectual pedigree. Nakagaki’s announcement was only the latest in a long chain of investigations into the subtleties of slime mold behavior. For scientists trying to understand systems that use relatively simple components to build higher-level intelligence, the slime mold may someday be seen as the equivalent of the finches and tortoises that Darwin observed on the Galapagos Islands.

     How did such a lowly organism come to play such an important scientific role? That story begins in the late sixties in New York City, with a scientist named Evelyn Fox Keller. A Harvard Ph.D. in physics, Keller had written her dissertation on molecular biology, and she had spent some time exploring the nascent field of “non-equilibrium thermodynamics”, which in later years would come to be associated with complexity theory. By 1968, she was working as an associate at Sloan-Kettering in Manhattan, thinking about the application of mathematics to biological problems. Mathematics had played such a tremendous role in expanding our understanding of physics, Keller thought – so perhaps it might also be useful for understanding living systems.

     In the spring of 1968, Keller met a visiting scholar named Lee Segel, an applied mathematician who shared her interests. It was Segel who first introduced her to the bizarre conduct of the slime mold, and together they began a series of investigations that would help transform not just our understanding of biological development but also the disparate worlds of brain science, software design, and urban studies.

(…)       

Johson, Steven. Emergence. Peguin Books Ltd. 2001, pp. 11-12. 

Indique a opção em que a reescrita do trecho “Despite its being an incredibly primitive organism (a close relative of ordinary fungi) with no centralized brain whatsoever, the slime mold managed to plot the most efficient route to the food, …” (parágrafo 1) está correta e mantém o mesmo significado do texto.
Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677431 Inglês

     In August of 2000, a Japanese scientist named Toshiyuki Nakagaki announced that he had trained an amoebalike organism called slime mold to find the shortest route through a maze. Nakagaki had placed the mold in a small maze comprising four possible routes and planted pieces of food at two of the exits. Despite its being an incredibly primitive organism (a close relative of ordinary fungi) with no centralized brain whatsoever, the slime mold managed to plot the most efficient route to the food, stretching its body through the maze so that it connected directly to the two food sources. Without any apparent cognitive resources, the slime mold had “solved” the maze puzzle.

     For such a simple organism, the slime mold has an impressive intellectual pedigree. Nakagaki’s announcement was only the latest in a long chain of investigations into the subtleties of slime mold behavior. For scientists trying to understand systems that use relatively simple components to build higher-level intelligence, the slime mold may someday be seen as the equivalent of the finches and tortoises that Darwin observed on the Galapagos Islands.

     How did such a lowly organism come to play such an important scientific role? That story begins in the late sixties in New York City, with a scientist named Evelyn Fox Keller. A Harvard Ph.D. in physics, Keller had written her dissertation on molecular biology, and she had spent some time exploring the nascent field of “non-equilibrium thermodynamics”, which in later years would come to be associated with complexity theory. By 1968, she was working as an associate at Sloan-Kettering in Manhattan, thinking about the application of mathematics to biological problems. Mathematics had played such a tremendous role in expanding our understanding of physics, Keller thought – so perhaps it might also be useful for understanding living systems.

     In the spring of 1968, Keller met a visiting scholar named Lee Segel, an applied mathematician who shared her interests. It was Segel who first introduced her to the bizarre conduct of the slime mold, and together they began a series of investigations that would help transform not just our understanding of biological development but also the disparate worlds of brain science, software design, and urban studies.

(…)       

Johson, Steven. Emergence. Peguin Books Ltd. 2001, pp. 11-12. 

Assinale a opção que, de acordo com o texto, contempla somente as áreas para as quais as pesquisas de Keller e Segel contribuíram.
Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677430 Inglês

     In August of 2000, a Japanese scientist named Toshiyuki Nakagaki announced that he had trained an amoebalike organism called slime mold to find the shortest route through a maze. Nakagaki had placed the mold in a small maze comprising four possible routes and planted pieces of food at two of the exits. Despite its being an incredibly primitive organism (a close relative of ordinary fungi) with no centralized brain whatsoever, the slime mold managed to plot the most efficient route to the food, stretching its body through the maze so that it connected directly to the two food sources. Without any apparent cognitive resources, the slime mold had “solved” the maze puzzle.

     For such a simple organism, the slime mold has an impressive intellectual pedigree. Nakagaki’s announcement was only the latest in a long chain of investigations into the subtleties of slime mold behavior. For scientists trying to understand systems that use relatively simple components to build higher-level intelligence, the slime mold may someday be seen as the equivalent of the finches and tortoises that Darwin observed on the Galapagos Islands.

     How did such a lowly organism come to play such an important scientific role? That story begins in the late sixties in New York City, with a scientist named Evelyn Fox Keller. A Harvard Ph.D. in physics, Keller had written her dissertation on molecular biology, and she had spent some time exploring the nascent field of “non-equilibrium thermodynamics”, which in later years would come to be associated with complexity theory. By 1968, she was working as an associate at Sloan-Kettering in Manhattan, thinking about the application of mathematics to biological problems. Mathematics had played such a tremendous role in expanding our understanding of physics, Keller thought – so perhaps it might also be useful for understanding living systems.

     In the spring of 1968, Keller met a visiting scholar named Lee Segel, an applied mathematician who shared her interests. It was Segel who first introduced her to the bizarre conduct of the slime mold, and together they began a series of investigations that would help transform not just our understanding of biological development but also the disparate worlds of brain science, software design, and urban studies.

(…)       

Johson, Steven. Emergence. Peguin Books Ltd. 2001, pp. 11-12. 

De acordo com o texto, Evelyn Fox Keller

I. tornou-se PhD em Física pela Universidade de Harvard e foi a pioneira nos estudos sobre teoria de sistemas complexos.

II. acreditava na importância da Matemática não apenas para o estudo da Física, mas também da Biologia.

III. Influenciou as pesquisas do matemático Lee Segel, levando-o a se interessar pelo comportamento dos slime molds.

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677429 Inglês

     In August of 2000, a Japanese scientist named Toshiyuki Nakagaki announced that he had trained an amoebalike organism called slime mold to find the shortest route through a maze. Nakagaki had placed the mold in a small maze comprising four possible routes and planted pieces of food at two of the exits. Despite its being an incredibly primitive organism (a close relative of ordinary fungi) with no centralized brain whatsoever, the slime mold managed to plot the most efficient route to the food, stretching its body through the maze so that it connected directly to the two food sources. Without any apparent cognitive resources, the slime mold had “solved” the maze puzzle.

     For such a simple organism, the slime mold has an impressive intellectual pedigree. Nakagaki’s announcement was only the latest in a long chain of investigations into the subtleties of slime mold behavior. For scientists trying to understand systems that use relatively simple components to build higher-level intelligence, the slime mold may someday be seen as the equivalent of the finches and tortoises that Darwin observed on the Galapagos Islands.

     How did such a lowly organism come to play such an important scientific role? That story begins in the late sixties in New York City, with a scientist named Evelyn Fox Keller. A Harvard Ph.D. in physics, Keller had written her dissertation on molecular biology, and she had spent some time exploring the nascent field of “non-equilibrium thermodynamics”, which in later years would come to be associated with complexity theory. By 1968, she was working as an associate at Sloan-Kettering in Manhattan, thinking about the application of mathematics to biological problems. Mathematics had played such a tremendous role in expanding our understanding of physics, Keller thought – so perhaps it might also be useful for understanding living systems.

     In the spring of 1968, Keller met a visiting scholar named Lee Segel, an applied mathematician who shared her interests. It was Segel who first introduced her to the bizarre conduct of the slime mold, and together they began a series of investigations that would help transform not just our understanding of biological development but also the disparate worlds of brain science, software design, and urban studies.

(…)       

Johson, Steven. Emergence. Peguin Books Ltd. 2001, pp. 11-12. 

Em sua pesquisa, Toshiyuki Nakagaki

I. colocou um slime mold num labirinto com quatro saídas.

II. treinou um slime mold a sair de um labirinto pelo caminho mais curto.

III. colocou alimentos em todas as saídas do labirinto para atrair o slime mold.

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677428 Inglês

     In August of 2000, a Japanese scientist named Toshiyuki Nakagaki announced that he had trained an amoebalike organism called slime mold to find the shortest route through a maze. Nakagaki had placed the mold in a small maze comprising four possible routes and planted pieces of food at two of the exits. Despite its being an incredibly primitive organism (a close relative of ordinary fungi) with no centralized brain whatsoever, the slime mold managed to plot the most efficient route to the food, stretching its body through the maze so that it connected directly to the two food sources. Without any apparent cognitive resources, the slime mold had “solved” the maze puzzle.

     For such a simple organism, the slime mold has an impressive intellectual pedigree. Nakagaki’s announcement was only the latest in a long chain of investigations into the subtleties of slime mold behavior. For scientists trying to understand systems that use relatively simple components to build higher-level intelligence, the slime mold may someday be seen as the equivalent of the finches and tortoises that Darwin observed on the Galapagos Islands.

     How did such a lowly organism come to play such an important scientific role? That story begins in the late sixties in New York City, with a scientist named Evelyn Fox Keller. A Harvard Ph.D. in physics, Keller had written her dissertation on molecular biology, and she had spent some time exploring the nascent field of “non-equilibrium thermodynamics”, which in later years would come to be associated with complexity theory. By 1968, she was working as an associate at Sloan-Kettering in Manhattan, thinking about the application of mathematics to biological problems. Mathematics had played such a tremendous role in expanding our understanding of physics, Keller thought – so perhaps it might also be useful for understanding living systems.

     In the spring of 1968, Keller met a visiting scholar named Lee Segel, an applied mathematician who shared her interests. It was Segel who first introduced her to the bizarre conduct of the slime mold, and together they began a series of investigations that would help transform not just our understanding of biological development but also the disparate worlds of brain science, software design, and urban studies.

(…)       

Johson, Steven. Emergence. Peguin Books Ltd. 2001, pp. 11-12. 

Assinale a opção CORRETA.
Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677427 Inglês

Com relação ao caso de Katsuyoshi Fujii, pode-se afirmar que

I. o júri condenou-o a 15 anos de prisão.

II. houve acareação entre o acusado, Sr. Fujii, e o filho da vítima.

III. por ser um caso comum de julgamento, mais de duas mil pessoas se candidataram a participar do corpo de jurados.

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677426 Inglês

De acordo com o texto:

I. Países como a Coréia do Sul e Taiwan têm os mesmos índices de criminalidade que o Japão.

II. É crescente o número de japoneses interessados em atuar como jurados no Japão.

III. Cidadãos comuns que participam de julgamentos como jurados podem sentenciar a pena capital.

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677425 Inglês

Considere as seguintes afirmações:

I. O texto apresenta o caso ocorrido com um cidadão japonês acusado de atacar seu vizinho.

II. De acordo com as regras vigentes, o corpo de jurados japonês é formado por profissionais da área jurídica e por cidadãos comuns.

III. Mr. Maruta é o grande responsável pela reformulação do sistema penal no Japão e em outros países asiáticos.

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677424 Inglês

Considere a tradução dos seguintes trechos extraídos do texto:

I. ...though Mr Fujii got 15 years. (parágrafo 1)

...embora Mr Fujii tenha recebido (uma pena de) 15 anos.

II. ...because eligible jurors (…) were away fighting. (parágrafo 2)

…porque os jurados elegíveis (…) estavam na guerra.

III. ...With Japan about to hold an election ... (parágrafo 4)

Com o Japão prestes a realizar uma eleição ...

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677423 Inglês
Assinale a opção que preenche corretamente as lacunas I e II, no último parágrafo do texto.
Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677422 Inglês

            

Leia o seguinte período extraído do texto:

Vegetarian restaurants have lower overheads since they don’t need freezers, says Marisa Ledesma, one of the owners of Bio Restaurante, a smart eatery. (parágrafo 2).

Assinale a opção que pode substituir o termo since sem que o sentido da oração seja comprometido.

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677421 Inglês

            

Assinale a opção em que o termo da coluna II NÃO pode substituir o termo da coluna I no texto.


Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677420 Inglês

            

Assinale a opção INCORRETA.
Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677418 Inglês

            

De acordo com o texto:

I. O crescimento do índice de vegetarianos tornou os moradores de Palermo mais saudáveis.

II. O modo de vida dos vegetarianos é bem visto pelos argentinos.

III. A adesão a hábitos vegetarianos é consequência do custo da carne vermelha.

IV. Bio Restaurante e La Esquina de las Flores são os principais restaurantes vegetarianos da Argentina.

Está(ão) correta(s)

Alternativas
Ano: 2009 Banca: ITA Órgão: ITA Prova: ITA - 2009 - ITA - Aluno - Português e Inglês |
Q677417 Inglês

A questão refere-se ao índice da Revista TIME

  

Assinale a opção em que a tradução do termo da coluna II corresponde ao termo da coluna I.
Alternativas
Respostas
2181: C
2182: C
2183: B
2184: A
2185: D
2186: B
2187: C
2188: B
2189: D
2190: B
2191: D
2192: C
2193: D
2194: E
2195: D
2196: A
2197: E
2198: D
2199: C
2200: A