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Q1694840 Biologia
A doença respiratória infectocontagiosa causada pela bactéria Bordetella pertussis, denomina-se:
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Q1694839 Ciências
A força que existe sobre todos os corpos, sendo exercida sobre eles por meio do campo gravitacional da terra denomina-se força:
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Q1694838 Pedagogia
Ao longo de toda a Educação Básica, o ensino das Ciências Humanas deve promover explorações sociocognitivas, afetivas e lúdicas capazes de:
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Q1694837 Pedagogia
De acordo com a BNCC, quais são as categorias básicas na área de Ciências Humanas?
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Q1694836 Pedagogia
A abordagem das relações espaciais e o consequente desenvolvimento do raciocínio espaço-temporal no ensino de Ciências Humanas devem favorecer a compreensão, pelos alunos:
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Q1694835 Pedagogia
Dentro da unidade temática “Terra e Universo”, apontada pela Base Nacional Comum Curricular (BNCC), são objetos de conhecimentos para o 9º ano, exceto:
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Q1694834 Pedagogia
Com relação ao ensino de Ciências para o 7º ano, considere a alternativa que descreve uma habilidade desenvolvida ligada à unidade temática “Terra e Universo”:
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Q1694833 Pedagogia
Dentro da unidade temática “Matéria e Energia”, apontada pela Base Nacional Comum Curricular (BNCC), é objeto de conhecimento para o 8º ano:
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Q1694832 Pedagogia
Os PCNs apontam que os alunos têm ideias acerca do seu corpo, dos fenômenos naturais e dos modos de realizar transformações no meio; são modelos com uma lógica interna, carregados de:
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Q1694831 Pedagogia
De acordo com os PCNs, o que oferece modelos lógicos e categorias de raciocínio, um painel de objetos de estudo, para o ensino das Ciências?
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Q1694830 Pedagogia
O conhecimento sobre como a natureza se comporta e a vida se processa contribui para o aluno se posicionar com fundamentos acerca de questões bastante polêmicas e orientar suas ações de forma mais consciente. São exemplos dessas questões: I. A manipulação gênica, os desmatamentos. II. O acúmulo na atmosfera de produtos resultantes da combustão. III. O destino dado ao lixo industrial, hospitalar e doméstico.
Está correto o que se afirma em:
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Q1694829 Pedagogia
Os Parâmetros Curriculares Nacionais (PCNs) indicam como objetivos do ensino fundamental que os alunos sejam capazes de perceber-se integrante, dependente e agente transformador do ambiente, identificando:
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Q1694107 Inglês

Read the text below to answer the question.


Parker Solar Probe: How Nasa is trying to 'touch' the Sun


   Nasa is all set to launch one of the most ambitious missions in its history. It's sending a satellite called the Parker Solar Probe into the Sun's outer atmosphere, or corona. Scheduled for launch on Saturday, the spacecraft promises to crack some longstanding mysteries about our star's behaviour.

(Adapted from: https://www.bbc.com/news/av/science-environment-45113552).

In the text, the “Parker Solar Probe” is:
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Q1694106 Inglês

Read the text below to answer the question.


Parker Solar Probe: How Nasa is trying to 'touch' the Sun


   Nasa is all set to launch one of the most ambitious missions in its history. It's sending a satellite called the Parker Solar Probe into the Sun's outer atmosphere, or corona. Scheduled for launch on Saturday, the spacecraft promises to crack some longstanding mysteries about our star's behaviour.

(Adapted from: https://www.bbc.com/news/av/science-environment-45113552).

In the text, the verbal tense of “the spacecraft promises” is:
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Q1694105 Inglês

Read the text below to answer the question.


Parker Solar Probe: How Nasa is trying to 'touch' the Sun


   Nasa is all set to launch one of the most ambitious missions in its history. It's sending a satellite called the Parker Solar Probe into the Sun's outer atmosphere, or corona. Scheduled for launch on Saturday, the spacecraft promises to crack some longstanding mysteries about our star's behaviour.

(Adapted from: https://www.bbc.com/news/av/science-environment-45113552).

According to the text, Nasa is sending a satellite to study the behaviour of the:
Alternativas
Q1694104 Inglês

Read the text below to answer the question.


How octopuses ‘taste’ things by touching


   Octopus arms have minds of their own. Each of these eight supple yet powerful limbs can explore the seafloor in search of prey, snatching crabs from hiding spots without direction from the octopus’ brain. But how each arm can tell what it’s grasping has remained a mystery.

   Now, researchers have identified specialized cells not seen in other animals that allow octopuses to “taste” with their arms. Embedded in the suckers, these cells enable the arms to do double duty of touch and taste by detecting chemicals produced by many aquatic creatures. This may help an arm quickly distinguish food from rocks or poisonous prey, Harvard University molecular biologist Nicholas Bellono and his colleagues report online October 29 in Cell.

   The findings provide another clue about the unique evolutionary path octopuses have taken toward intelligence. Instead of being concentrated in the brain, two-thirds of the nerve cells in an octopus are distributed among the arms, allowing the flexible appendages to operate semiindependently.


(Adapted from: https://www.sciencenews.org/article/octopus-taste-touch-arm-suckers). 

The text states the cells embedded in the suckers enable the arms to do double duty of touch and taste, which means, in Portuguese, the animal have sensory skills like:
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Q1694103 Inglês

Read the text below to answer the question.


How octopuses ‘taste’ things by touching


   Octopus arms have minds of their own. Each of these eight supple yet powerful limbs can explore the seafloor in search of prey, snatching crabs from hiding spots without direction from the octopus’ brain. But how each arm can tell what it’s grasping has remained a mystery.

   Now, researchers have identified specialized cells not seen in other animals that allow octopuses to “taste” with their arms. Embedded in the suckers, these cells enable the arms to do double duty of touch and taste by detecting chemicals produced by many aquatic creatures. This may help an arm quickly distinguish food from rocks or poisonous prey, Harvard University molecular biologist Nicholas Bellono and his colleagues report online October 29 in Cell.

   The findings provide another clue about the unique evolutionary path octopuses have taken toward intelligence. Instead of being concentrated in the brain, two-thirds of the nerve cells in an octopus are distributed among the arms, allowing the flexible appendages to operate semiindependently.


(Adapted from: https://www.sciencenews.org/article/octopus-taste-touch-arm-suckers). 

The negative form of the phrase “Octopus arms have minds of their own” is:
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Q1694102 Inglês

Read the text below to answer the question.


How octopuses ‘taste’ things by touching


   Octopus arms have minds of their own. Each of these eight supple yet powerful limbs can explore the seafloor in search of prey, snatching crabs from hiding spots without direction from the octopus’ brain. But how each arm can tell what it’s grasping has remained a mystery.

   Now, researchers have identified specialized cells not seen in other animals that allow octopuses to “taste” with their arms. Embedded in the suckers, these cells enable the arms to do double duty of touch and taste by detecting chemicals produced by many aquatic creatures. This may help an arm quickly distinguish food from rocks or poisonous prey, Harvard University molecular biologist Nicholas Bellono and his colleagues report online October 29 in Cell.

   The findings provide another clue about the unique evolutionary path octopuses have taken toward intelligence. Instead of being concentrated in the brain, two-thirds of the nerve cells in an octopus are distributed among the arms, allowing the flexible appendages to operate semiindependently.


(Adapted from: https://www.sciencenews.org/article/octopus-taste-touch-arm-suckers). 

The contracted form presented in the phrase “But how each arm can tell what it’s grasping has remained a mystery” is correctly replaced by: 
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Q1694101 Inglês

Read the text below to answer the question.


How octopuses ‘taste’ things by touching


   Octopus arms have minds of their own. Each of these eight supple yet powerful limbs can explore the seafloor in search of prey, snatching crabs from hiding spots without direction from the octopus’ brain. But how each arm can tell what it’s grasping has remained a mystery.

   Now, researchers have identified specialized cells not seen in other animals that allow octopuses to “taste” with their arms. Embedded in the suckers, these cells enable the arms to do double duty of touch and taste by detecting chemicals produced by many aquatic creatures. This may help an arm quickly distinguish food from rocks or poisonous prey, Harvard University molecular biologist Nicholas Bellono and his colleagues report online October 29 in Cell.

   The findings provide another clue about the unique evolutionary path octopuses have taken toward intelligence. Instead of being concentrated in the brain, two-thirds of the nerve cells in an octopus are distributed among the arms, allowing the flexible appendages to operate semiindependently.


(Adapted from: https://www.sciencenews.org/article/octopus-taste-touch-arm-suckers). 

In the text, the word “octopus” means, in Portuguese:
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Q1694100 Inglês

Read the text below to answer the question.


How octopuses ‘taste’ things by touching


   Octopus arms have minds of their own. Each of these eight supple yet powerful limbs can explore the seafloor in search of prey, snatching crabs from hiding spots without direction from the octopus’ brain. But how each arm can tell what it’s grasping has remained a mystery.

   Now, researchers have identified specialized cells not seen in other animals that allow octopuses to “taste” with their arms. Embedded in the suckers, these cells enable the arms to do double duty of touch and taste by detecting chemicals produced by many aquatic creatures. This may help an arm quickly distinguish food from rocks or poisonous prey, Harvard University molecular biologist Nicholas Bellono and his colleagues report online October 29 in Cell.

   The findings provide another clue about the unique evolutionary path octopuses have taken toward intelligence. Instead of being concentrated in the brain, two-thirds of the nerve cells in an octopus are distributed among the arms, allowing the flexible appendages to operate semiindependently.


(Adapted from: https://www.sciencenews.org/article/octopus-taste-touch-arm-suckers). 

According to the text:
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Respostas
2121: C
2122: A
2123: B
2124: B
2125: C
2126: C
2127: D
2128: A
2129: B
2130: C
2131: D
2132: A
2133: A
2134: A
2135: D
2136: C
2137: B
2138: B
2139: C
2140: A