Questões de Concurso Público CRO-SP 2025 para Analista de Suporte de Tecnologia de Informação
Foram encontradas 120 questões
Considere‑se o corredor de um antigo castelo com seis nichos numerados de 1 a 6. Em cada nicho, o guarda pode optar por acender ou não uma tocha durante a ronda noturna.
Com base nessa situação hipotética, julgue o item a seguir.
O número de maneiras de acender exatamente 3 tochas durante a ronda noturna é igual a 20.
Considere‑se o corredor de um antigo castelo com seis nichos numerados de 1 a 6. Em cada nicho, o guarda pode optar por acender ou não uma tocha durante a ronda noturna.
Com base nessa situação hipotética, julgue o item a seguir.
O número de maneiras de acender, pelo menos, uma tocha ao final da ronda é igual a 61.
Considere‑se o corredor de um antigo castelo com seis nichos numerados de 1 a 6. Em cada nicho, o guarda pode optar por acender ou não uma tocha durante a ronda noturna.
Com base nessa situação hipotética, julgue o item a seguir.
Se exatamente dois nichos estiverem acesos, então a probabilidade de que a soma de seus números seja igual a 7 é de 20%.
Admitindo‑se que a proposição “A vaca é amarela se, e somente se, o jacaré é verde” é verdadeira e que a proposição “Se o jacaré não é verde, então o pavão é azul” é falsa, julgue o item seguinte.
A vaca é amarela.
Admitindo‑se que a proposição “A vaca é amarela se, e somente se, o jacaré é verde” é verdadeira e que a proposição “Se o jacaré não é verde, então o pavão é azul” é falsa, julgue o item seguinte.
O jacaré é verde.
Admitindo‑se que a proposição “A vaca é amarela se, e somente se, o jacaré é verde” é verdadeira e que a proposição “Se o jacaré não é verde, então o pavão é azul” é falsa, julgue o item seguinte.
O pavão é azul.
Em um grupo de 5 amigas (Ana, Beatriz, Cecília, Déborah e Érica), sabe‑se que Ana é um ano mais nova que Beatriz, que Beatriz é um ano mais nova que Cecília, que Cecília é 3 anos mais velha que Déborah e que Déborah é 4 anos mais nova que Érica. A média das idades dessas 5 amigas é de 51 anos.
Com base nessa situação hipotética, julgue o item a seguir.
Ana tem 50 anos de idade.
Em um grupo de 5 amigas (Ana, Beatriz, Cecília, Déborah e Érica), sabe‑se que Ana é um ano mais nova que Beatriz, que Beatriz é um ano mais nova que Cecília, que Cecília é 3 anos mais velha que Déborah e que Déborah é 4 anos mais nova que Érica. A média das idades dessas 5 amigas é de 51 anos.
Com base nessa situação hipotética, julgue o item a seguir.
O conjunto das idades do grupo é bimodal.
Em um grupo de 5 amigas (Ana, Beatriz, Cecília, Déborah e Érica), sabe‑se que Ana é um ano mais nova que Beatriz, que Beatriz é um ano mais nova que Cecília, que Cecília é 3 anos mais velha que Déborah e que Déborah é 4 anos mais nova que Érica. A média das idades dessas 5 amigas é de 51 anos.
Com base nessa situação hipotética, julgue o item a seguir.
A mediana das idades do grupo é de 51 anos.
Em um grupo de 5 amigas (Ana, Beatriz, Cecília, Déborah e Érica), sabe‑se que Ana é um ano mais nova que Beatriz, que Beatriz é um ano mais nova que Cecília, que Cecília é 3 anos mais velha que Déborah e que Déborah é 4 anos mais nova que Érica. A média das idades dessas 5 amigas é de 51 anos.
Com base nessa situação hipotética, julgue o item a seguir.
Érica é 2 anos mais velha que Beatriz.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
Systems engineers are responsible to maintain and operate an IT system in a company, however, they are not responsible for customer service.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
Upgrading systems is a systems engineer’s duty.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
In the third paragraph, the adverb “therefore” can be replaced by thereby.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
According to the text, the work of a systems engineer must be as equal as possible, without distinction among companies.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
Systems engineers understand technology merely to its engineering.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
Troubleshooting is a matter of math problems found in software design.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
In the text, systems engineer and administrator have the same meaning.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
System engineers must solve all problems in a given system.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
In the extract “they develop and implement new software, improve existing processes”, the verb “improve” can be changed to enhance.
In today’s IT‑enabled world, a good systems engineer, or administrator for that matter, is one of the lynchpins of any enterprise because they ensure technology works as it is intended. They ensure all systems in an organization work well together. They are responsible for streamlining those systems, but also developing and implementing new technology. They are also the ones that are called upon when there are problems.
An IT systems engineer develops, tests, implements, and evaluates software, servers, network computers, workstations, and more. They develop and implement new software, improve existing processes, upgrade hardware, and do whatever else is necessary to ensure that the organization is streamlined and functional that can meet the business needs. Systems engineers are generally very knowledgeable in mathematical analysis, computer science, and engineering.
Systems engineers understand technology beyond merely engineering it. They understand the role it plays in the larger picture of the organization’s and the individual’s ultimate objectives. In terms of the actual job description, some of the responsibilities of a systems engineer may include, but not be limited to:
• Installing and configuring hardware and software
• Managing servers
• Setting up workstations and accounts
• Maintaining and operating systems
• Troubleshooting
• Ensuring security
• Upgrading systems
• Training staff and customers on new technology
Different companies will have differing requirements in terms of their systems, which means that a systems engineer’s day‑to‑day duties might differ significantly from one organization to another. For example, a manufacturing firm might require unique inventory tracking systems. On the other hand, a cybersecurity firm might require their systems engineer to consult with clients on hardware necessary to support the security system being developed. Therefore, a systems engineer might also consult with clients on what the right software and/ or hardware they need to make certain that their IT system meets their requirements. They might also have direct involvement in the purchasing, installation, testing, and implementation of a project.
Systems Engineers will also evaluate the existing infrastructure to determine how effective it is and advise on how scalable said infrastructure is. Of course, they will also be responsible for resolving any problems that occur when the system is being used. As the Internet now plays a massive role in most companies’ operations, a systems engineer will also review and recommend security measures that will allow the enterprise to operate online safely.
In other words, without a good IT systems engineer, an organization is likely to crumble like a tower of cards when one removes the vital foundation.
Internet: <medium.com> (adapted).
According to the text, judge the following item.
In the last line, the author states that IT systems work the same as a tower of cards.