INSTRUCTION: Answer question according to text.
TEXT
Reading the work of Jorge Luis Borges for the first time is
like discovering a new letter in the alphabet, or a new note in
the musical scale. His writings are fictions filled with private
jokes and esoterica, historiography and sardonic footnotes.
[5] They are brief, often with abrupt beginnings. Borges’ use
of labyrinths, mirrors, chess games and detective stories
creates a complex intellectual landscape, yet his language is
clear, with ironic undertones. He presents the most fantastic
of scenes in simple terms, seducing us into the forking
[10] pathway of his seemingly infinite imagination.
Half a century ago, when Borges’ ground-breaking collection
Ficciones was first published in English translation, he was
virtually unknown outside literary circles in Buenos Aires,
where he was born in 1899, and Paris, where his work was
[15] translated in the 1950s. In 1961, he was catapulted onto the
world stage when international publishers awarded him the
first Formentor Prize for outstanding literary achievement.
He shared the prize with Samuel Beckett (the other authors
on the shortlist were Alejo Carpentier, Max Frisch and Henry
[20] Miller). The award spurred English translations of Ficciones
and Labyrinths and brought Borges widespread fame and
respect.
Over the decades since his death in 1986, Borges’ global
stature has continued to grow. “Today one could consider
[25] Borges the most important writer of the 20th Century,” says
Suzanne Jill Levine, translator and general editor of the
Penguin Classics five-volume Borges series. Why? “Because
he created a new literary continent between North and South
America, between Europe and America, between old worlds
[30] and modernity. In creating the most original writing of his
time, Borges taught us that nothing is new, that creation is
recreation, that we are all one contradictory mind, connected
amongst each other and through time and space, that human
beings are not only fiction makers but are fictions themselves,
[35] that everything we think or perceive is fiction, that every
corner of knowledge is a fiction.”
Adapted from http://www.bbc.com/culture/story/20140902-the-20thcenturys-best-writer (acessado em setembro 2014).
A preposição “In” (linha 30) pode ser substituída, sem alteração de significado, por
INSTRUCTION: Answer question in relation to text.
TEXT
The agency has no official plans for a mission to the
Jovian moon, whose icy crust covers a watery ocean in
which life could theoretically exist. But spurred by intense
congressional interest and several recent discoveries,
[5] NASA is seeking ideas for instruments that could fly on
a mission to Europa.
The groundswell of enthusiasm is likely to be bolstered by
the latest big news, reported on 7 September, that there
may be giant plates of ice shuffling around on Europa
[10] – much as plates of rock do on Earth (S. A. Kattenhorn
and L. M. Prockter Nature Geosci. 2014). Such active
geology suggests that Europa’s icy surface is connected
to its buried ocean – creating a possible pathway for salts,
minerals and maybe even microbes to get from the ocean
[15] to the surface and back again.
Kattenhorn and Prockter propose a system of plate
tectonics that involves a shell of ice a few kilometers thick
sliding around on warmer, more fluid ice. When one plate
hits another and begins to dive downwards – or subduct
[20] – it melts and becomes incorporated in the underlying
ice, the duo proposes.
Places have already been spotted on Europa where fresh
ice crust is being born, but the latest research is the first
to pinpoint where it might be going to die.
[25] But without high-resolution images from more areas,
researchers cannot tell whether subduction might also be
happening in other locations. If it turns out to be common,
it might mean that the moon could be cycling life-friendly
compounds between the surface and the deep, and
[30] that substantially increases the chance that its ocean is
habitable, says Michael Bland, a planetary scientist at the
US Geological Survey in Flagstaff, Arizona.
The discovery adds to excitement set off in December,
when scientists reported plumes of water vapour spurting
[35] out at Europa’s south pole. The plumes have not been
seen since, and they may or may not be related to
Europa’s newly appreciated system of plate tectonics.
NASA now needs to figure out what kind of mission might
best explore these discoveries.
Adapted from http://www.scientifi camerican.com/article (acesso em setembro de 2014).
INSTRUCTION: Answer question based on statements I to III.
I. NASA is looking for ideas for instruments to research Europa.
II. Researchers found that Europa’s ocean is habitable.
III. A system of plate tectonics on Europa’s icy crust has been suggested.
The correct statement(s) is/are
INSTRUCTION: Answer question in relation to text.
TEXT
The agency has no official plans for a mission to the
Jovian moon, whose icy crust covers a watery ocean in
which life could theoretically exist. But spurred by intense
congressional interest and several recent discoveries,
[5] NASA is seeking ideas for instruments that could fly on
a mission to Europa.
The groundswell of enthusiasm is likely to be bolstered by
the latest big news, reported on 7 September, that there
may be giant plates of ice shuffling around on Europa
[10] – much as plates of rock do on Earth (S. A. Kattenhorn
and L. M. Prockter Nature Geosci. 2014). Such active
geology suggests that Europa’s icy surface is connected
to its buried ocean – creating a possible pathway for salts,
minerals and maybe even microbes to get from the ocean
[15] to the surface and back again.
Kattenhorn and Prockter propose a system of plate
tectonics that involves a shell of ice a few kilometers thick
sliding around on warmer, more fluid ice. When one plate
hits another and begins to dive downwards – or subduct
[20] – it melts and becomes incorporated in the underlying
ice, the duo proposes.
Places have already been spotted on Europa where fresh
ice crust is being born, but the latest research is the first
to pinpoint where it might be going to die.
[25] But without high-resolution images from more areas,
researchers cannot tell whether subduction might also be
happening in other locations. If it turns out to be common,
it might mean that the moon could be cycling life-friendly
compounds between the surface and the deep, and
[30] that substantially increases the chance that its ocean is
habitable, says Michael Bland, a planetary scientist at the
US Geological Survey in Flagstaff, Arizona.
The discovery adds to excitement set off in December,
when scientists reported plumes of water vapour spurting
[35] out at Europa’s south pole. The plumes have not been
seen since, and they may or may not be related to
Europa’s newly appreciated system of plate tectonics.
NASA now needs to figure out what kind of mission might
best explore these discoveries.
Adapted from http://www.scientifi camerican.com/article (acesso em setembro de 2014).
According to the text,
INSTRUCTION: Answer question in relation to text.
TEXT
The agency has no official plans for a mission to the
Jovian moon, whose icy crust covers a watery ocean in
which life could theoretically exist. But spurred by intense
congressional interest and several recent discoveries,
[5] NASA is seeking ideas for instruments that could fly on
a mission to Europa.
The groundswell of enthusiasm is likely to be bolstered by
the latest big news, reported on 7 September, that there
may be giant plates of ice shuffling around on Europa
[10] – much as plates of rock do on Earth (S. A. Kattenhorn
and L. M. Prockter Nature Geosci. 2014). Such active
geology suggests that Europa’s icy surface is connected
to its buried ocean – creating a possible pathway for salts,
minerals and maybe even microbes to get from the ocean
[15] to the surface and back again.
Kattenhorn and Prockter propose a system of plate
tectonics that involves a shell of ice a few kilometers thick
sliding around on warmer, more fluid ice. When one plate
hits another and begins to dive downwards – or subduct
[20] – it melts and becomes incorporated in the underlying
ice, the duo proposes.
Places have already been spotted on Europa where fresh
ice crust is being born, but the latest research is the first
to pinpoint where it might be going to die.
[25] But without high-resolution images from more areas,
researchers cannot tell whether subduction might also be
happening in other locations. If it turns out to be common,
it might mean that the moon could be cycling life-friendly
compounds between the surface and the deep, and
[30] that substantially increases the chance that its ocean is
habitable, says Michael Bland, a planetary scientist at the
US Geological Survey in Flagstaff, Arizona.
The discovery adds to excitement set off in December,
when scientists reported plumes of water vapour spurting
[35] out at Europa’s south pole. The plumes have not been
seen since, and they may or may not be related to
Europa’s newly appreciated system of plate tectonics.
NASA now needs to figure out what kind of mission might
best explore these discoveries.
Adapted from http://www.scientifi camerican.com/article (acesso em setembro de 2014).
In line 07, the word “bolstered” can be substituted, without change in meaning, by
INSTRUCTION: Answer question in relation to text.
TEXT
The agency has no official plans for a mission to the
Jovian moon, whose icy crust covers a watery ocean in
which life could theoretically exist. But spurred by intense
congressional interest and several recent discoveries,
[5] NASA is seeking ideas for instruments that could fly on
a mission to Europa.
The groundswell of enthusiasm is likely to be bolstered by
the latest big news, reported on 7 September, that there
may be giant plates of ice shuffling around on Europa
[10] – much as plates of rock do on Earth (S. A. Kattenhorn
and L. M. Prockter Nature Geosci. 2014). Such active
geology suggests that Europa’s icy surface is connected
to its buried ocean – creating a possible pathway for salts,
minerals and maybe even microbes to get from the ocean
[15] to the surface and back again.
Kattenhorn and Prockter propose a system of plate
tectonics that involves a shell of ice a few kilometers thick
sliding around on warmer, more fluid ice. When one plate
hits another and begins to dive downwards – or subduct
[20] – it melts and becomes incorporated in the underlying
ice, the duo proposes.
Places have already been spotted on Europa where fresh
ice crust is being born, but the latest research is the first
to pinpoint where it might be going to die.
[25] But without high-resolution images from more areas,
researchers cannot tell whether subduction might also be
happening in other locations. If it turns out to be common,
it might mean that the moon could be cycling life-friendly
compounds between the surface and the deep, and
[30] that substantially increases the chance that its ocean is
habitable, says Michael Bland, a planetary scientist at the
US Geological Survey in Flagstaff, Arizona.
The discovery adds to excitement set off in December,
when scientists reported plumes of water vapour spurting
[35] out at Europa’s south pole. The plumes have not been
seen since, and they may or may not be related to
Europa’s newly appreciated system of plate tectonics.
NASA now needs to figure out what kind of mission might
best explore these discoveries.
Adapted from http://www.scientifi camerican.com/article (acesso em setembro de 2014).
The “-ly” in “life-friendly” (line 28) performs the same grammar role as in
INSTRUCTION: Answer question in relation to text.
TEXT
The agency has no official plans for a mission to the
Jovian moon, whose icy crust covers a watery ocean in
which life could theoretically exist. But spurred by intense
congressional interest and several recent discoveries,
[5] NASA is seeking ideas for instruments that could fly on
a mission to Europa.
The groundswell of enthusiasm is likely to be bolstered by
the latest big news, reported on 7 September, that there
may be giant plates of ice shuffling around on Europa
[10] – much as plates of rock do on Earth (S. A. Kattenhorn
and L. M. Prockter Nature Geosci. 2014). Such active
geology suggests that Europa’s icy surface is connected
to its buried ocean – creating a possible pathway for salts,
minerals and maybe even microbes to get from the ocean
[15] to the surface and back again.
Kattenhorn and Prockter propose a system of plate
tectonics that involves a shell of ice a few kilometers thick
sliding around on warmer, more fluid ice. When one plate
hits another and begins to dive downwards – or subduct
[20] – it melts and becomes incorporated in the underlying
ice, the duo proposes.
Places have already been spotted on Europa where fresh
ice crust is being born, but the latest research is the first
to pinpoint where it might be going to die.
[25] But without high-resolution images from more areas,
researchers cannot tell whether subduction might also be
happening in other locations. If it turns out to be common,
it might mean that the moon could be cycling life-friendly
compounds between the surface and the deep, and
[30] that substantially increases the chance that its ocean is
habitable, says Michael Bland, a planetary scientist at the
US Geological Survey in Flagstaff, Arizona.
The discovery adds to excitement set off in December,
when scientists reported plumes of water vapour spurting
[35] out at Europa’s south pole. The plumes have not been
seen since, and they may or may not be related to
Europa’s newly appreciated system of plate tectonics.
NASA now needs to figure out what kind of mission might
best explore these discoveries.
Adapted from http://www.scientifi camerican.com/article (acesso em setembro de 2014).
A frase “But without high-resolution images from more areas, researchers cannot tell whether subduction might also be happening in other locations” (linhas 25 a 27) poderia ser assim compreendida: