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Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513087
Direito Constitucional
Leia o enunciado abaixo, analise as afirmativas dando valores, (V) verdadeiro ou (F) valso e, em seguida assinale a alternativa que apresenta a sequência correta de cima para baixo.
De acordo com a CF/88, a autonomia gerencial, orçamentária e financeira dos órgãos e entidades da administração direta e indireta poderá ser ampliada mediante contrato, a ser firmado entre seus administradores e o poder público, que tenha por objeto a fixação de metas de desempenho para o órgão ou entidade, cabendo à lei dispor sobre:
( ) o prazo de duração do contrato.
( ) os controles e critérios de avaliação de desempenho, direitos, obrigações e responsabilidade dos dirigentes.
( ) a remuneração do pessoal.
De acordo com a CF/88, a autonomia gerencial, orçamentária e financeira dos órgãos e entidades da administração direta e indireta poderá ser ampliada mediante contrato, a ser firmado entre seus administradores e o poder público, que tenha por objeto a fixação de metas de desempenho para o órgão ou entidade, cabendo à lei dispor sobre:
( ) o prazo de duração do contrato.
( ) os controles e critérios de avaliação de desempenho, direitos, obrigações e responsabilidade dos dirigentes.
( ) a remuneração do pessoal.
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513086
Direito Administrativo
Complete as lacunas abaixo com a alternativa correta.
As pessoas ___________ de direito público e as de direito privado prestadoras de serviços _____________ responderão pelos danos que seus agentes, nessa qualidade, causarem a terceiros, assegurado o direito de ______________ contra o responsável nos casos de dolo ou culpa.
As pessoas ___________ de direito público e as de direito privado prestadoras de serviços _____________ responderão pelos danos que seus agentes, nessa qualidade, causarem a terceiros, assegurado o direito de ______________ contra o responsável nos casos de dolo ou culpa.
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513085
Inglês
Texto associado
Clues to How an Electric Treatment for Parkinson’s Work
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
The future form of: “We do D.B.S. because it works, but we don’t really know how.” is:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513084
Inglês
Texto associado
Clues to How an Electric Treatment for Parkinson’s Work
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
The negative form of: “In a recent experiment, Dr. Starr and his colleagues believe they found a clue.” is:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513083
Inglês
Texto associado
Clues to How an Electric Treatment for Parkinson’s Work
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
The interrogative form of: “For many patients, the effect was immediate.” is:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513082
Inglês
Texto associado
Clues to How an Electric Treatment for Parkinson’s Work
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
The simple past tense form of: “When we turn on the stimulator, they start walking.” is:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513081
Inglês
Texto associado
Clues to How an Electric Treatment for Parkinson’s Work
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
In 1998, Dr. Philip A. Starr started putting electrodes in people’s brains. A neurosurgeon at the University of California, San Francisco, Dr. Starr was treating people with Parkinson’s disease, which slowly destroys essential bits of brain tissue, robbing people of control of their bodies. At first, drugs had given his patients some relief, but now they needed more help. After the surgery, Dr. Starr closed up his patients’ skulls and switched on the electrodes, releasing a steady buzz of electric pulses in their brains. For many patients, the effect was immediate. “We have people who, when they’re not taking their meds, can be frozen,” said Dr. Starr. “When we turn on the stimulator, they start walking.” First developed in the early 1990s, deep brain stimulation, or D.B.S., was approved by the Food and Drug Administration for treating Parkinson’s disease in 2002. Since its invention, about 100,000 people have received implants. While D.B.S. doesn’t halt Parkinson’s, it can turn back the clock a few years for many patients. Yet despite its clear effectiveness, scientists like Dr. Starr have struggled to understand what D.B.S. actually does to the brain. “We do D.B.S. because it works,” said Dr. Starr, “but we don’t really know how.” In a recent experiment, Dr. Starr and his colleagues believe they found a clue. D.B.S. may counter Parkinson’s disease by liberating the brain from a devastating electrical lock-step.
http://www.nytimes.com/2015/04/16/science/ (adapted)
According to the text, choose the correct alternative to answer the following question: “Who is Philip A. Starr?”
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513079
Noções de Informática
Os botões da figura abaixo fazem parte da Guia _______ do Word 2010.
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Gestor de Políticas Públicas Regionais |
Q513076
Português
Texto associado
O Poder da Comunicação
Nós seres humanos passamos tanto tempo preocupados em alcançar aquilo que não temos, que esquecemo-nos de olhar e valorizar o que temos.
Somos seres extremamente privilegiados, pois nascemos com a capacidade de comunicação.
Talvez as adversidades da vida, não nos permitiram até o momento perceber o quanto esta capacidade é importante para a nossa sobrevivência nesta terra.
O que seria de nós se porventura, não pudéssemos nos comunicar com outros seres humanos? Como expressaríamos todos os nossos desejos e necessidades? Como exprimiríamos os nosso pensamentos e ideias? Com certeza não sobreviveríamos muitos dias.
O que muitos de nós, seres humanos, ainda não entendemos é que essa capacidade além de nos ajudar a sobreviver nesta terra, tem bastante influência no alcance de nossos objetivos. Mas preste atenção, não basta apenas se comunicar, é preciso saber se comunicar.
Do que adianta saber falar, se não usamos as palavras certas, no momento certo? Já ouvi várias pessoas repetindo a tal famosa frase: “Eu só sou responsável pelo que eu falo, não pelo o que você entende".
Não só discordo desta frase como também acredito que a mesma é sempre utilizada como escape. Afinal de contas, é bem mais fácil para o emissor, colocar a responsabilidade da mensagem no receptor, não é mesmo?
Se quisermos ser, bem sucedidos em tudo o que fazemos é preciso aprender a responsabilizar-nos pelas mensagens por nós transmitidas. Quando realmente temos interesse em transmitir a mensagem de maneira correta, não só responsabilizamo-nos por aquilo que falamos, mas também por aquilo que o outro entende. A mensagem só é enviada corretamente, quando emissor e receptor encontram-se na mesma sintonia. Quando um fala e o outro entende.
Precisamos ter bastante cuidado com a mensagem que estamos transmitindo para a nossa liderança. Quando falamos a mesma língua que a nossa família, nossos colegas de trabalho, amigos e liderança teremos como resultado o nosso crescimento e o alcance de nossos objetivos. Mas é preciso jamais esquecer qual é a nossa posição. Todo bom líder almeja uma equipe motivada, unida e que fale a mesma língua, porém é importante deixar claro que o intuito é alcançar os objetivos da empresa e não destituir o líder.
Caso não aprendamos a passar a mensagem correta, nossos projetos correm grande risco de terminarem como a Torre de Babel. Inacabados.
...
Texto adaptado
Mônica Bastos
Disponível em: http://www.rhportal.com.br/
Nós seres humanos passamos tanto tempo preocupados em alcançar aquilo que não temos, que esquecemo-nos de olhar e valorizar o que temos.
Somos seres extremamente privilegiados, pois nascemos com a capacidade de comunicação.
Talvez as adversidades da vida, não nos permitiram até o momento perceber o quanto esta capacidade é importante para a nossa sobrevivência nesta terra.
O que seria de nós se porventura, não pudéssemos nos comunicar com outros seres humanos? Como expressaríamos todos os nossos desejos e necessidades? Como exprimiríamos os nosso pensamentos e ideias? Com certeza não sobreviveríamos muitos dias.
O que muitos de nós, seres humanos, ainda não entendemos é que essa capacidade além de nos ajudar a sobreviver nesta terra, tem bastante influência no alcance de nossos objetivos. Mas preste atenção, não basta apenas se comunicar, é preciso saber se comunicar.
Do que adianta saber falar, se não usamos as palavras certas, no momento certo? Já ouvi várias pessoas repetindo a tal famosa frase: “Eu só sou responsável pelo que eu falo, não pelo o que você entende".
Não só discordo desta frase como também acredito que a mesma é sempre utilizada como escape. Afinal de contas, é bem mais fácil para o emissor, colocar a responsabilidade da mensagem no receptor, não é mesmo?
Se quisermos ser, bem sucedidos em tudo o que fazemos é preciso aprender a responsabilizar-nos pelas mensagens por nós transmitidas. Quando realmente temos interesse em transmitir a mensagem de maneira correta, não só responsabilizamo-nos por aquilo que falamos, mas também por aquilo que o outro entende. A mensagem só é enviada corretamente, quando emissor e receptor encontram-se na mesma sintonia. Quando um fala e o outro entende.
Precisamos ter bastante cuidado com a mensagem que estamos transmitindo para a nossa liderança. Quando falamos a mesma língua que a nossa família, nossos colegas de trabalho, amigos e liderança teremos como resultado o nosso crescimento e o alcance de nossos objetivos. Mas é preciso jamais esquecer qual é a nossa posição. Todo bom líder almeja uma equipe motivada, unida e que fale a mesma língua, porém é importante deixar claro que o intuito é alcançar os objetivos da empresa e não destituir o líder.
Caso não aprendamos a passar a mensagem correta, nossos projetos correm grande risco de terminarem como a Torre de Babel. Inacabados.
...
Texto adaptado
Mônica Bastos
Disponível em: http://www.rhportal.com.br/
A colocação pronominal está correta somente na alternativa:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512967
Direito Processual Civil - CPC 1973
No que concerne à ação civil pública, pode ser afirmado que:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512966
Direito Processual Civil - CPC 1973
Apresenta-se como prerrogativa processual da Fazenda Pública:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512965
Direito Processual Civil - CPC 1973
Complete a lacuna inserta na frase a seguir, referindo-se a um dos princípios constitucionais do processo civil.
O _________________________________ apresenta dois sentidos, significando “o conjunto de garantias de ordem constitucional, que de um lado asseguram às partes o exercício de suas faculdades poderes de natureza processual e, de outro, legitimam a própria função jurisdicional".
O _________________________________ apresenta dois sentidos, significando “o conjunto de garantias de ordem constitucional, que de um lado asseguram às partes o exercício de suas faculdades poderes de natureza processual e, de outro, legitimam a própria função jurisdicional".
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512964
Direito Civil
São princípios utilizados na solução de conflitos intertemporais e espaciais de normas jurídicas:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512963
Direito da Criança e do Adolescente - Estatuto da Criança e do Adolescente (ECA) - Lei nº 8.069 de 1990
No que tange ao instituto da adoção, como tal previsto no Estatuto da Criança e do Adolescente, pode ser afirmado o que segue:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512962
Direito Civil
Com relação aos direitos da personalidade, expressamente previstos no Código Civil Brasileiro, pode ser afirmado o que segue:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512961
Direito Constitucional
Podem propor a ação declaratória de constitucionalidade:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512960
Direito Constitucional
O Conselho da República é órgão superior de consulta do Presidente da República, e dele participam, dentre outros:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512959
Direito Constitucional
Compete privativamente ao Senado Federal:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512958
Direito Constitucional
O alistamento eleitoral e o voto são:
Ano: 2015
Banca:
CAIP-IMES
Órgão:
Consórcio Intermunicipal Grande ABC
Prova:
CAIP-IMES - 2015 - Consórcio Intermunicipal Grande ABC - Procurador |
Q512957
Direito Constitucional
São privativos de brasileiro nato os cargos:
Conheça nossos planos