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Q1242181 Psicologia
Há um conjunto de teorias, abordagens e sistemas que analisam e descrevem o processo de construção da personalidade humana. Essas teorias e abordagens estão no campo da psicologia. A autoria do sistema holístico denominado de Psicologia Individual é atribuída a:
Alternativas
Q1242180 Inglês
Which of the following statements is CORRECT?
Alternativas
Q1242179 Inglês
In acoustic phonetics, it is CORRECTto say that:
Alternativas
Q1242178 Inglês
Which of the following descriptions indicate the CORRECTsound?
Alternativas
Q1242176 Inglês
The word bough rhymes with:
Alternativas
Q1242175 Inglês
“Effective teachers are typically defined as those whose students perform better on standardized achievement tests. In a study of effective teachers in bilingual education programs in California and Hawaii, for example, Tikunoff (1985) observed teachers to find out how they organize instruction, structure teaching activities, and enhance student performance on tasks.”
RICHARDS, Jack C. Theories of Teaching in Language Teaching. In: RICHARDS, J. C. & RENANDYA, W. A. Methodology in Language Teaching: An Anthology of Current Practice. Cambridge: Cambridge University Press, 2002, p. 21.


Which of the following characteristics is concerned with an effective teaching?
Alternativas
Q1242174 Inglês
Considering the reasons why studying the online world is crucial for understanding language, proposed by David Barton and Carmen Lee in “Language online: Investigating digital texts and practices” (2013), which of the following statements is CORRECT?
Alternativas
Q1242169 Inglês

TEXT I


LEARNING LANGUAGE: NEWINSIGHTS INTO HOWBRAIN FUNCTIONS

For most native English-speakers, learning the Mandarin Chinese language from scratch is no easy task.



          Learning it in a class that essentially compresses a one-semester college course into a single month of intensive instruction -- and agreeing to have your brain scanned before and after -- might seem even more daunting. 

         But the 24 Americans who did just that have enabled University of Delaware cognitive neuroscientist Zhenghan Qi and her colleagues to make new discoveries about how adults learn a foreign language.

      The study, published in May in the journal NeuroImage, focused on the roles of the brain's left and right hemispheres in language acquisition. The findings could lead to instructional methods that potentially improve students' success in learning a new language.

      "The left hemisphere is known as the language-learning part of the brain, but we found that it was the right hemisphere that determined the eventual success" in learning Mandarin, said Qi, assistant professor of linguistics and cognitive science.

      "This was new," she said. "For decades, everyone has focused on the left hemisphere, and the right hemisphere has been largely overlooked."

       The left hemisphere is undoubtedly important in language learning, Qi said, noting that clinical research on individuals with speech disorders has indicated that the left side of the brain is in many ways the hub of language processing.

    But, she said, before any individuals -- infants learning their native language or adults learning a second language -- begin processing such aspects of the new language as vocabulary and grammar, they must first learn to identify its basic sounds or phonological elements.

      It's during that process of distinguishing "acoustic details" of sounds where the right side of the brain is key, according to the new findings.

      Researchers began by exposing the 24 participants in the study to pairs of sounds that were similar but began with different consonants, such as "bah" and "nah," and having them describe the tones, Qi said.

      "We asked: Were the tones of those two sounds similar or different?" she said. "We used the brain activation patterns during this task to predict who would be the most successful learners" of the new language.

     The study continued by teaching the participants in a setting designed to replicate a college language class, although the usual semester was condensed into four weeks of instruction. Students attended class for three and a half hours a day, five days a week, completed homework assignments and took tests. 

     "Our research is the first to look at attainment and long-term retention of real-world language learned in a classroom setting, which is how most people learn a new language," Qi said.

        By scanning each participant's brain with functional MRI (magnetic resonance imaging) at the beginning and end of the project, the scientists were able to see which part of the brain was most engaged while processing basic sound elements in Mandarin. To their surprise, they found that -- although, as expected, the left hemisphere showed a substantial increase of activation later in the learning process -- the right hemisphere in the most successful learners was most active in the early, sound-recognition stage.

     "It turns out that the right hemisphere is very important in processing foreign speech sounds at the beginning of learning," Qi said. She added that the right hemisphere's role then seems to diminish in those successful learners as they continue learning the language.

     Additional research will investigate whether the findings apply to those learning other languages, not just Mandarin. The eventual goal is to explore whether someone can practice sound recognition early in the process of learning a new language to potentially improve their success.

       "We found that the more active the right hemisphere is, the more sensitive the listener is to acoustic differences in sound," Qi said. "Everyone has different levels of activation, but even if you don't have that sensitivity to begin with, you can still learn successfully if your brain is plastic enough."

     Researchers can't say for certain how to apply these findings to real-life learning, but when it comes down to it, "Adults are trainable," Qi said. "They can train themselves to become more sensitive to foreign speech sounds."


( S o u r c e : U n i v e r s i t y o f D e l a w a r e . " L e a r n i n g l a n g u a g e : N e w i n s i g h t s i n t o h o w b r a i n f u n c t i o n s . " S c i e n c e D a i l y .<www.sciencedaily.com/releases/2019/05/190508093716.htm> ScienceDaily, 8 May 2019).


“Learning it in a class that essentially compresses a one-semester college course into a single month of intensive instruction -- and agreeing to have your brain scanned before and after -- might seem even more daunting.” The word daunting can be substituted by
Alternativas
Q1242168 Inglês

TEXT I


LEARNING LANGUAGE: NEWINSIGHTS INTO HOWBRAIN FUNCTIONS

For most native English-speakers, learning the Mandarin Chinese language from scratch is no easy task.



          Learning it in a class that essentially compresses a one-semester college course into a single month of intensive instruction -- and agreeing to have your brain scanned before and after -- might seem even more daunting. 

         But the 24 Americans who did just that have enabled University of Delaware cognitive neuroscientist Zhenghan Qi and her colleagues to make new discoveries about how adults learn a foreign language.

      The study, published in May in the journal NeuroImage, focused on the roles of the brain's left and right hemispheres in language acquisition. The findings could lead to instructional methods that potentially improve students' success in learning a new language.

      "The left hemisphere is known as the language-learning part of the brain, but we found that it was the right hemisphere that determined the eventual success" in learning Mandarin, said Qi, assistant professor of linguistics and cognitive science.

      "This was new," she said. "For decades, everyone has focused on the left hemisphere, and the right hemisphere has been largely overlooked."

       The left hemisphere is undoubtedly important in language learning, Qi said, noting that clinical research on individuals with speech disorders has indicated that the left side of the brain is in many ways the hub of language processing.

    But, she said, before any individuals -- infants learning their native language or adults learning a second language -- begin processing such aspects of the new language as vocabulary and grammar, they must first learn to identify its basic sounds or phonological elements.

      It's during that process of distinguishing "acoustic details" of sounds where the right side of the brain is key, according to the new findings.

      Researchers began by exposing the 24 participants in the study to pairs of sounds that were similar but began with different consonants, such as "bah" and "nah," and having them describe the tones, Qi said.

      "We asked: Were the tones of those two sounds similar or different?" she said. "We used the brain activation patterns during this task to predict who would be the most successful learners" of the new language.

     The study continued by teaching the participants in a setting designed to replicate a college language class, although the usual semester was condensed into four weeks of instruction. Students attended class for three and a half hours a day, five days a week, completed homework assignments and took tests. 

     "Our research is the first to look at attainment and long-term retention of real-world language learned in a classroom setting, which is how most people learn a new language," Qi said.

        By scanning each participant's brain with functional MRI (magnetic resonance imaging) at the beginning and end of the project, the scientists were able to see which part of the brain was most engaged while processing basic sound elements in Mandarin. To their surprise, they found that -- although, as expected, the left hemisphere showed a substantial increase of activation later in the learning process -- the right hemisphere in the most successful learners was most active in the early, sound-recognition stage.

     "It turns out that the right hemisphere is very important in processing foreign speech sounds at the beginning of learning," Qi said. She added that the right hemisphere's role then seems to diminish in those successful learners as they continue learning the language.

     Additional research will investigate whether the findings apply to those learning other languages, not just Mandarin. The eventual goal is to explore whether someone can practice sound recognition early in the process of learning a new language to potentially improve their success.

       "We found that the more active the right hemisphere is, the more sensitive the listener is to acoustic differences in sound," Qi said. "Everyone has different levels of activation, but even if you don't have that sensitivity to begin with, you can still learn successfully if your brain is plastic enough."

     Researchers can't say for certain how to apply these findings to real-life learning, but when it comes down to it, "Adults are trainable," Qi said. "They can train themselves to become more sensitive to foreign speech sounds."


( S o u r c e : U n i v e r s i t y o f D e l a w a r e . " L e a r n i n g l a n g u a g e : N e w i n s i g h t s i n t o h o w b r a i n f u n c t i o n s . " S c i e n c e D a i l y .<www.sciencedaily.com/releases/2019/05/190508093716.htm> ScienceDaily, 8 May 2019).


“The study continued by teaching the participants in a setting designed to replicate a college language class, although the usual semester was condensed into four weeks of instruction.” What is the meaning of the expression although?
Alternativas
Q1242167 Inglês

TEXT I


LEARNING LANGUAGE: NEWINSIGHTS INTO HOWBRAIN FUNCTIONS

For most native English-speakers, learning the Mandarin Chinese language from scratch is no easy task.



          Learning it in a class that essentially compresses a one-semester college course into a single month of intensive instruction -- and agreeing to have your brain scanned before and after -- might seem even more daunting. 

         But the 24 Americans who did just that have enabled University of Delaware cognitive neuroscientist Zhenghan Qi and her colleagues to make new discoveries about how adults learn a foreign language.

      The study, published in May in the journal NeuroImage, focused on the roles of the brain's left and right hemispheres in language acquisition. The findings could lead to instructional methods that potentially improve students' success in learning a new language.

      "The left hemisphere is known as the language-learning part of the brain, but we found that it was the right hemisphere that determined the eventual success" in learning Mandarin, said Qi, assistant professor of linguistics and cognitive science.

      "This was new," she said. "For decades, everyone has focused on the left hemisphere, and the right hemisphere has been largely overlooked."

       The left hemisphere is undoubtedly important in language learning, Qi said, noting that clinical research on individuals with speech disorders has indicated that the left side of the brain is in many ways the hub of language processing.

    But, she said, before any individuals -- infants learning their native language or adults learning a second language -- begin processing such aspects of the new language as vocabulary and grammar, they must first learn to identify its basic sounds or phonological elements.

      It's during that process of distinguishing "acoustic details" of sounds where the right side of the brain is key, according to the new findings.

      Researchers began by exposing the 24 participants in the study to pairs of sounds that were similar but began with different consonants, such as "bah" and "nah," and having them describe the tones, Qi said.

      "We asked: Were the tones of those two sounds similar or different?" she said. "We used the brain activation patterns during this task to predict who would be the most successful learners" of the new language.

     The study continued by teaching the participants in a setting designed to replicate a college language class, although the usual semester was condensed into four weeks of instruction. Students attended class for three and a half hours a day, five days a week, completed homework assignments and took tests. 

     "Our research is the first to look at attainment and long-term retention of real-world language learned in a classroom setting, which is how most people learn a new language," Qi said.

        By scanning each participant's brain with functional MRI (magnetic resonance imaging) at the beginning and end of the project, the scientists were able to see which part of the brain was most engaged while processing basic sound elements in Mandarin. To their surprise, they found that -- although, as expected, the left hemisphere showed a substantial increase of activation later in the learning process -- the right hemisphere in the most successful learners was most active in the early, sound-recognition stage.

     "It turns out that the right hemisphere is very important in processing foreign speech sounds at the beginning of learning," Qi said. She added that the right hemisphere's role then seems to diminish in those successful learners as they continue learning the language.

     Additional research will investigate whether the findings apply to those learning other languages, not just Mandarin. The eventual goal is to explore whether someone can practice sound recognition early in the process of learning a new language to potentially improve their success.

       "We found that the more active the right hemisphere is, the more sensitive the listener is to acoustic differences in sound," Qi said. "Everyone has different levels of activation, but even if you don't have that sensitivity to begin with, you can still learn successfully if your brain is plastic enough."

     Researchers can't say for certain how to apply these findings to real-life learning, but when it comes down to it, "Adults are trainable," Qi said. "They can train themselves to become more sensitive to foreign speech sounds."


( S o u r c e : U n i v e r s i t y o f D e l a w a r e . " L e a r n i n g l a n g u a g e : N e w i n s i g h t s i n t o h o w b r a i n f u n c t i o n s . " S c i e n c e D a i l y .<www.sciencedaily.com/releases/2019/05/190508093716.htm> ScienceDaily, 8 May 2019).


According to the text, it is CORRECTto say that:
Alternativas
Q1242166 Inglês

TEXT I


LEARNING LANGUAGE: NEWINSIGHTS INTO HOWBRAIN FUNCTIONS

For most native English-speakers, learning the Mandarin Chinese language from scratch is no easy task.



          Learning it in a class that essentially compresses a one-semester college course into a single month of intensive instruction -- and agreeing to have your brain scanned before and after -- might seem even more daunting. 

         But the 24 Americans who did just that have enabled University of Delaware cognitive neuroscientist Zhenghan Qi and her colleagues to make new discoveries about how adults learn a foreign language.

      The study, published in May in the journal NeuroImage, focused on the roles of the brain's left and right hemispheres in language acquisition. The findings could lead to instructional methods that potentially improve students' success in learning a new language.

      "The left hemisphere is known as the language-learning part of the brain, but we found that it was the right hemisphere that determined the eventual success" in learning Mandarin, said Qi, assistant professor of linguistics and cognitive science.

      "This was new," she said. "For decades, everyone has focused on the left hemisphere, and the right hemisphere has been largely overlooked."

       The left hemisphere is undoubtedly important in language learning, Qi said, noting that clinical research on individuals with speech disorders has indicated that the left side of the brain is in many ways the hub of language processing.

    But, she said, before any individuals -- infants learning their native language or adults learning a second language -- begin processing such aspects of the new language as vocabulary and grammar, they must first learn to identify its basic sounds or phonological elements.

      It's during that process of distinguishing "acoustic details" of sounds where the right side of the brain is key, according to the new findings.

      Researchers began by exposing the 24 participants in the study to pairs of sounds that were similar but began with different consonants, such as "bah" and "nah," and having them describe the tones, Qi said.

      "We asked: Were the tones of those two sounds similar or different?" she said. "We used the brain activation patterns during this task to predict who would be the most successful learners" of the new language.

     The study continued by teaching the participants in a setting designed to replicate a college language class, although the usual semester was condensed into four weeks of instruction. Students attended class for three and a half hours a day, five days a week, completed homework assignments and took tests. 

     "Our research is the first to look at attainment and long-term retention of real-world language learned in a classroom setting, which is how most people learn a new language," Qi said.

        By scanning each participant's brain with functional MRI (magnetic resonance imaging) at the beginning and end of the project, the scientists were able to see which part of the brain was most engaged while processing basic sound elements in Mandarin. To their surprise, they found that -- although, as expected, the left hemisphere showed a substantial increase of activation later in the learning process -- the right hemisphere in the most successful learners was most active in the early, sound-recognition stage.

     "It turns out that the right hemisphere is very important in processing foreign speech sounds at the beginning of learning," Qi said. She added that the right hemisphere's role then seems to diminish in those successful learners as they continue learning the language.

     Additional research will investigate whether the findings apply to those learning other languages, not just Mandarin. The eventual goal is to explore whether someone can practice sound recognition early in the process of learning a new language to potentially improve their success.

       "We found that the more active the right hemisphere is, the more sensitive the listener is to acoustic differences in sound," Qi said. "Everyone has different levels of activation, but even if you don't have that sensitivity to begin with, you can still learn successfully if your brain is plastic enough."

     Researchers can't say for certain how to apply these findings to real-life learning, but when it comes down to it, "Adults are trainable," Qi said. "They can train themselves to become more sensitive to foreign speech sounds."


( S o u r c e : U n i v e r s i t y o f D e l a w a r e . " L e a r n i n g l a n g u a g e : N e w i n s i g h t s i n t o h o w b r a i n f u n c t i o n s . " S c i e n c e D a i l y .<www.sciencedaily.com/releases/2019/05/190508093716.htm> ScienceDaily, 8 May 2019).


What is the purpose of the research developed by Zhenghan Qi and her colleagues from the University of Delaware?
Alternativas
Q1242163 Biologia
Quando duas faunas anteriormente separadas entram em contato ocorrem eventos chamados de intercâmbios bióticos. Um dos principais exemplos destes casos é o Grande Intercambio Americano, fruto tanto do processo da tectônica das placas quanto da dispersão das espécies. As Américas do Norte e do Sul foram religadas pelo istmo do Panamá e uma das consequências foi o trânsito da fauna entre os continentes. Um estudo acerca do número de gêneros de mamíferos na sucessão do tempo indicou que a América do Norte possuía uma maior quantidade de gêneros que migraram para a América do Sul, em relação ao número de gêneros que migraram da América do Sul para a do Norte. Contudo, o percentual de migração foi o mesmo, cerca de 10% dos gêneros de cada lado migraram na direção oposta com sucesso. Apesar dessa equivalência percentual, a proliferação dos mamíferos norte-americanos que emigraram para o sul foi maior. O resultado foi que dos 12 gêneros imigrantes do Sul derivaram 3 novos gêneros, enquanto que 21 gêneros imigrantes do Norte deram origem a 49 novos gêneros. Fonte: Ridley, M. Evolução. 3ª ed. Porto Alegre, Artmed. 2006.
Sobre o Grande Intercambio Americano conclui-se que:
Alternativas
Q1242159 Biologia
A sexualidade abrange aspectos biológicos, psíquicos, sociais, culturais e históricos. Além da ausência de doenças, disfunções ou debilidades, a Organização Mundial de Saúde (OMS) define saúde sexual como um estado físico, emocional, mental e social de bem-estar em relação à sexualidade. Para se alcançar e manter a saúde sexual, os direitos sexuais de todas as pessoas devem ser respeitados, protegidos e satisfeitos. Fonte: Brasil. Ministério da Saúde. Secretaria de Atenção à Saúde. Departamento de Atenção Básica. Saúde sexual e saúde reprodutiva. 1. ed., 1. reimpr. – Brasília: Ministério da Saúde, 2013.
Considerando esse contexto, analise as asserções a seguir:
I- Sexo se refere a um conjunto de características genotípicas e biológicas, enquanto que o gênero é uma construção social e histórica.
Porque
II- Gênero é um conceito que se refere a um sistema de atributos sociais, tais como papéis, crenças, atitudes e relações entre mulheres e homens, os quais não são determinados biologicamente, e que contribuem para orientar o sentido do que é ser homem ou ser mulher numa dada sociedade.
A respeito dessas asserções, assinale a opção CORRETA.
Alternativas
Q1242158 Biologia
Recentemente uma equipe de pesquisadores identificou que o enhancer, uma região do DNA até então considerada como “DNA lixo”, estava relacionada com o desenvolvimento de membros nos vertebrados. A primeira evidência para essa inferência foi a partir de um experimento que analisava a expressão do enhancer de 17 vertebrados, incluindo peixes, aves, mamíferos, lagartos e cobras. A equipe clonou o a região do enhancer de cada um destes vertebrados em plasmídeos, que foram injetados em camundongos. Os resultados do experimento mostraram que, com exceção do enhancer da cobra, todos os outros imprimiram expressão na pata do camundongo.
Em um segundo momento, utilizando a técnica Crispr, pesquisadores substituíram o enhancer de um camundongo pelo enhancer de uma cobra. O resultado foi o desenvolvimento de um camundongo sem patas. Após identificar a diferença do enhancer das cobras em relação ao das outras espécies de vertebrados, o terceiro passo foi corrigir o DNAda cobra para tentar recapitular a função do enhancer. Assim trocaram o enhancer do camundongo, por um enhancer corrigido de cobra. O resultado foi o desenvolvimento de um camundongo com patas. Portanto, a pesquisa sugeriu que a degeneração do enhancer foi o motivo pelo qual as cobras deixaram de ter patas durante o seu processo evolutivo. Fonte: Kvon, E. Z. et al.Progressive loss of function in a limb enhancer during snake evolution. Cell 167, pp. 633–642, 2016.
A partir desse experimento, conclui-se que um dos eventos evolutivos que permitiu a perda das patas durante a evolução das cobras foi 
Alternativas
Q1242153 Biologia
No passado, as mudanças do clima decorreram de fenômenos naturais e garantiram a permanência da diversidade de formas de vida na Terra. Contudo, a alteração dos últimos 50 anos tem sido atribuída às atividades humanas. Atualmente as temperaturas médias globais são as maiores dos últimos 500 anos. Caso não haja mudanças, observaremos neste século um acréscimo médio da temperatura global de 2°C a 5,8°C, de acordo com os dados do 4° Relatório do Painel Intergovernamental sobre Mudanças Climáticas (IPCC), de 2007. Fonte: BRASIL, Ministério do Meio Ambiente. Disponível em <http://www.mma.gov.br/ clima/energia/item/195-efeito-estufa-e-quequecimento-global>. Acessado em 15 de julho de 2019.
A partir da análise do contexto, indique qual das atividades abaixo relacionadas NÃO potencializa o problema em questão
Alternativas
Q1242152 Biologia
Em 2010 cientistas publicaram na revista Science um artigo que descreve a criação de uma bactéria com DNA sintético. O genoma, sintetizado a partir de instruções de computador, tem apenas um cromossomo com 1,08 milhão de pares de bases da bactéria Mycoplasma mycoides. O DNA sintético foi transplantado para uma célula recipiente (sem material genético) de outra bactéria, criando uma célula de M. mycoides totalmente controlada pelo cromossomo sintético. A bactéria criada apresentou as características fenotípicas esperadas para a espécie e foi capaz de se autorreplicar continuamente. Fonte: GIBSON, D. G. et al. Creation of a bacterial cell controlled by a chemically synthesized genome. Science vol. 329, 2010. pp 52–56.
Essa nova técnica da Biotecnologia suscita
I- novas questões éticas relacionadas à definição da vida e de como ela funciona. II- limitações em relação à criação de vida artificial, uma vez que a bactéria receptora permaneceu com seu próprio citoplasma. III- possibilidade de criação de novos microrganismos com genoma artificial que possam sintetizar proteínas de interesse econômico.
É CORRETO o que se afirma em:
Alternativas
Q1242150 Geografia

Observe a pirâmide etária brasileira e responda o que se pede.


Imagem associada para resolução da questão


Está CORRETO o que se afirma em:

Alternativas
Q1242149 Geografia

AANEEL (2019) apresentou dados da potência de produção energia no Brasil. Apresentou também valores que mostram um grande avanço na produção das energias renováveis. Observe o gráfico e o quadro e, responda o que se pede. 


Imagem associada para resolução da questão


É verdade o que se afirma em:


I- O Brasil apresenta maior potencial de produção de energia gerado por usinas hidroelétricas, seguido do potencial de produção de energia produzidas em usinas termelétricas e por centrais de geradora eólica.


II- O Brasil possuiu uma grande geração de energia maremotriz, tendo uma potência instalada e fiscalizada suficiente para suprir a necessidade energética das cidades do NE.


III- A energia eólica e solar – fotovoltaica são fontes de energias não-renováveis com grande potencial de crescimento no Brasil, sobretudo no NE.


IV- Energia eólica é a energia cinética contida nas massas de ar em movimento e é a terceira maior potência de produção de energia. A energia solar é aquela que pode ser captada com painéis solares. Porém, não possui significativa produção no Brasil, se comparada a anterior. 


É VERDADE o que se afirma apenas em:

Alternativas
Q1242148 História
AGuerra Fria, iniciada logo após o fim da Segunda Guerra Mundial (1939-1945), polarizou o contraste ideológico entre o capitalismo e socialismo, aprofundado um cenário de disputa internacional por novas tecnologias, armas nucleares, poder econômico, político e militar. Aqueda do muro de Berlim (1989) e o fim da União Soviética (1991), são fatos que simbolizaram o fim da Guerra Fria.
Sobre o tema, é CORRETO afirmar:
Alternativas
Q1242147 Geografia
O vulcanismo é um dos processos da dinâmica interna da Terra, resultante do acúmulo de energia e material magmático ao longo do tempo geológico, ou seja, “os episódios vulcânicos ocorrem desde o início da evolução da Terra (4,5 bilhões de anos). Portanto, numa escala distinta de desenvolvimento da humanidade (séculos)”. Fonte: TEIXEIRA, W. Vulcanismos: produtos e importância para a vida. In: TEIXEIRA, W. et. al (orgs.). Decifrando a Terra. São Paulo: Oficina de Textos, 2000. p.349.
Com base nesta informação marque a alternativa CORRETA.
Alternativas
Respostas
13861: B
13862: B
13863: A
13864: E
13865: A
13866: B
13867: C
13868: E
13869: A
13870: C
13871: B
13872: E
13873: D
13874: B
13875: D
13876: C
13877: A
13878: B
13879: C
13880: A