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3618984 Ano: 2025
Disciplina: Inglês (Língua Inglesa)
Banca: FUNDATEC
Orgão: IFFar

In the article “Effective English Reading Strategies: English Language Learners’ Perceptions” (2019), the author Waheeb S. Albiladi says that:

“Reading in English within a second language (ESL) context has received much attention as researchers and second language educators have sought the most effective and beneficial ways to develop language learners’ reading skills. For many educators (Horwitz, 2008; Krashen, 2007; Nation, 2008; Singhal, 2001), reading is the bridge that allows English language learners to acquire and develop other language skills including speaking, writing, and vocabulary acquisition. [...] Barrot (2016) mentioned that research surrounding teaching English reading focuses on the type of text or materials used in English classes and the strategies that ESL teachers utilize to facilitate teaching and learning of English reading”.

Analyze the following statements about the excerpt above:

I. Reading is the only mandatory skill needed for acquiring other language abilities.

II. Research on teaching of English reading often focuses on materials and teaching strategies.

III. Reading skills are less significant than speaking skills in second language learning.

Which ones are correct?

 

Provas

Questão presente nas seguintes provas
3618980 Ano: 2025
Disciplina: Inglês (Língua Inglesa)
Banca: FUNDATEC
Orgão: IFFar

According to BNCC, English enables students to deepen their understanding of the world, explore new research perspectives, access information, express ideas and values, and handle different opinions and criticism. However, accessing specialized information, which can help spark interest and prepare students for the next step in their studies, might require specific tools. Therefore, English for Specific Purposes (ESP) teaching might be a useful approach. Mark the INCORRECT statement about ESP teaching.

 

Provas

Questão presente nas seguintes provas
3618726 Ano: 2025
Disciplina: Inglês (Língua Inglesa)
Banca: FUNDATEC
Orgão: IFFar

BNCC approaches the use of digital information and communication technologies (TDIC) as a student facilitator to familiarize them with the use of those resources and a learning aid for other contents in a significant and autonomous way. Mark the correct statement about TDIC in English teaching.

 

Provas

Questão presente nas seguintes provas
3618725 Ano: 2025
Disciplina: Inglês (Língua Inglesa)
Banca: FUNDATEC
Orgão: IFFar

The Brazilian Base Nacional Comum Curricular (BNCC) says English is a global language, which allows access to multiple uses and functions in the contemporary times. As one of the possible uses is access to science, it is important to connect the teaching of English with the concept of scientific literacy, addressed by the BNCC as the ability to comprehend, interpret and apply scientific knowledge to make informed decisions and act critically and ethically in society. Analyze the statements below about scientific literacy and mark T, if true, or F, if false.

( ) It involves the ability to evaluate critically scientific information.

( ) It requires advanced knowledge of applied sciences.

( ) It includes understanding the scientific method, such as formulating and testing hypotheses, and analyzing results.

The correct order of filling in the parentheses, from top to bottom, is:

 

Provas

Questão presente nas seguintes provas
Land degradation is a systemic global problem, but the scale of the problem is disputed, with global estimates of degraded areas ranging from <10 to >60 million km2 . Changes in vegetation in drylands are predominantly caused by two factors: (i) anthropogenic climate change, which includes both changes in water availability driven by trends in precipitation and increases in temperature, as well as increased water use efficiency (carbon gain per unit of water lost) in response to rising atmospheric CO2; and (ii) land use practices, including grazing, cropping and deforestation. Unsustainable land use is considered the primary negative driver of dryland degradation. The impact of climate change on drylands is also generally thought to be negative, with some studies suggesting that anthropogenic forcing has already increased arid areas.
Despite evidence for land use-induced degradation and the studies that find increased aridification over drylands, satellite estimates of vegetation greenness show a significant global increase since 1980. The key drivers of this global increase in apparent vegetation productivity are the vegetation’s response to rising CO2, increases in rainfall and temperature and land use. Model simulations which prescribe land use, attribute almost all of the trend in satellite-derived greening to CO2 fertilization, while satellite-derived models that do not account for CO2, explicitly find either climate or land use as the dominate factor. Neither approach explicitly accounts for rapid ecosystem change in their proportioning of the relative contributions of each driver. This can lead them to miss or underestimate rapid changes driven by processes like extreme fires, deforestation, reforestation, changes in agricultural policy, etc. Disentangling the roles of climate (temperature and precipitation), CO2 and land use thus remains a key challenge.
A.L. Burrell; J.P. Evans; M.G. De Kauwe. Anthropogenic climate change has driven over 5 million km2 of drylands towards desertification. Internet:<www.sciencedirect.com> (adapted)

Judge the following item about the text presented above.

The authors agree that human action is at the root cause of changes in vegetation in drylands.

 

Provas

Questão presente nas seguintes provas
Land degradation is a systemic global problem, but the scale of the problem is disputed, with global estimates of degraded areas ranging from <10 to >60 million km2 . Changes in vegetation in drylands are predominantly caused by two factors: (i) anthropogenic climate change, which includes both changes in water availability driven by trends in precipitation and increases in temperature, as well as increased water use efficiency (carbon gain per unit of water lost) in response to rising atmospheric CO2; and (ii) land use practices, including grazing, cropping and deforestation. Unsustainable land use is considered the primary negative driver of dryland degradation. The impact of climate change on drylands is also generally thought to be negative, with some studies suggesting that anthropogenic forcing has already increased arid areas.
Despite evidence for land use-induced degradation and the studies that find increased aridification over drylands, satellite estimates of vegetation greenness show a significant global increase since 1980. The key drivers of this global increase in apparent vegetation productivity are the vegetation’s response to rising CO2, increases in rainfall and temperature and land use. Model simulations which prescribe land use, attribute almost all of the trend in satellite-derived greening to CO2 fertilization, while satellite-derived models that do not account for CO2, explicitly find either climate or land use as the dominate factor. Neither approach explicitly accounts for rapid ecosystem change in their proportioning of the relative contributions of each driver. This can lead them to miss or underestimate rapid changes driven by processes like extreme fires, deforestation, reforestation, changes in agricultural policy, etc. Disentangling the roles of climate (temperature and precipitation), CO2 and land use thus remains a key challenge.
A.L. Burrell; J.P. Evans; M.G. De Kauwe. Anthropogenic climate change has driven over 5 million km2 of drylands towards desertification. Internet:<www.sciencedirect.com> (adapted)

Judge the following item about the text presented above.

Scientists are certain about the proportion of land degradation in the world, besides recognizing that it is an issue happening in various parts of the Earth.

 

Provas

Questão presente nas seguintes provas
Land degradation is a systemic global problem, but the scale of the problem is disputed, with global estimates of degraded areas ranging from <10 to >60 million km2 . Changes in vegetation in drylands are predominantly caused by two factors: (i) anthropogenic climate change, which includes both changes in water availability driven by trends in precipitation and increases in temperature, as well as increased water use efficiency (carbon gain per unit of water lost) in response to rising atmospheric CO2; and (ii) land use practices, including grazing, cropping and deforestation. Unsustainable land use is considered the primary negative driver of dryland degradation. The impact of climate change on drylands is also generally thought to be negative, with some studies suggesting that anthropogenic forcing has already increased arid areas.
Despite evidence for land use-induced degradation and the studies that find increased aridification over drylands, satellite estimates of vegetation greenness show a significant global increase since 1980. The key drivers of this global increase in apparent vegetation productivity are the vegetation’s response to rising CO2, increases in rainfall and temperature and land use. Model simulations which prescribe land use, attribute almost all of the trend in satellite-derived greening to CO2 fertilization, while satellite-derived models that do not account for CO2, explicitly find either climate or land use as the dominate factor. Neither approach explicitly accounts for rapid ecosystem change in their proportioning of the relative contributions of each driver. This can lead them to miss or underestimate rapid changes driven by processes like extreme fires, deforestation, reforestation, changes in agricultural policy, etc. Disentangling the roles of climate (temperature and precipitation), CO2 and land use thus remains a key challenge.
A.L. Burrell; J.P. Evans; M.G. De Kauwe. Anthropogenic climate change has driven over 5 million km2 of drylands towards desertification. Internet:<www.sciencedirect.com> (adapted)

Judge the following item about the text presented above.

The following expressions are examples of technical or specialized language that help to place the text in a certain area of knowledge: “climate change”, “vegetation greenness” and “key challenge”.

 

Provas

Questão presente nas seguintes provas
Land degradation is a systemic global problem, but the scale of the problem is disputed, with global estimates of degraded areas ranging from <10 to >60 million km2 . Changes in vegetation in drylands are predominantly caused by two factors: (i) anthropogenic climate change, which includes both changes in water availability driven by trends in precipitation and increases in temperature, as well as increased water use efficiency (carbon gain per unit of water lost) in response to rising atmospheric CO2; and (ii) land use practices, including grazing, cropping and deforestation. Unsustainable land use is considered the primary negative driver of dryland degradation. The impact of climate change on drylands is also generally thought to be negative, with some studies suggesting that anthropogenic forcing has already increased arid areas.
Despite evidence for land use-induced degradation and the studies that find increased aridification over drylands, satellite estimates of vegetation greenness show a significant global increase since 1980. The key drivers of this global increase in apparent vegetation productivity are the vegetation’s response to rising CO2, increases in rainfall and temperature and land use. Model simulations which prescribe land use, attribute almost all of the trend in satellite-derived greening to CO2 fertilization, while satellite-derived models that do not account for CO2, explicitly find either climate or land use as the dominate factor. Neither approach explicitly accounts for rapid ecosystem change in their proportioning of the relative contributions of each driver. This can lead them to miss or underestimate rapid changes driven by processes like extreme fires, deforestation, reforestation, changes in agricultural policy, etc. Disentangling the roles of climate (temperature and precipitation), CO2 and land use thus remains a key challenge.
A.L. Burrell; J.P. Evans; M.G. De Kauwe. Anthropogenic climate change has driven over 5 million km2 of drylands towards desertification. Internet:<www.sciencedirect.com> (adapted)

Judge the following item about the text presented above.

In the second paragraph, the expressions “Neither approach”, “their” and “them” are related to the models mentioned beforehand, which aim to explain the “global increase in apparent vegetation productivity”.

 

Provas

Questão presente nas seguintes provas
Land degradation is a systemic global problem, but the scale of the problem is disputed, with global estimates of degraded areas ranging from <10 to >60 million km2 . Changes in vegetation in drylands are predominantly caused by two factors: (i) anthropogenic climate change, which includes both changes in water availability driven by trends in precipitation and increases in temperature, as well as increased water use efficiency (carbon gain per unit of water lost) in response to rising atmospheric CO2; and (ii) land use practices, including grazing, cropping and deforestation. Unsustainable land use is considered the primary negative driver of dryland degradation. The impact of climate change on drylands is also generally thought to be negative, with some studies suggesting that anthropogenic forcing has already increased arid areas.
Despite evidence for land use-induced degradation and the studies that find increased aridification over drylands, satellite estimates of vegetation greenness show a significant global increase since 1980. The key drivers of this global increase in apparent vegetation productivity are the vegetation’s response to rising CO2, increases in rainfall and temperature and land use. Model simulations which prescribe land use, attribute almost all of the trend in satellite-derived greening to CO2 fertilization, while satellite-derived models that do not account for CO2, explicitly find either climate or land use as the dominate factor. Neither approach explicitly accounts for rapid ecosystem change in their proportioning of the relative contributions of each driver. This can lead them to miss or underestimate rapid changes driven by processes like extreme fires, deforestation, reforestation, changes in agricultural policy, etc. Disentangling the roles of climate (temperature and precipitation), CO2 and land use thus remains a key challenge.
A.L. Burrell; J.P. Evans; M.G. De Kauwe. Anthropogenic climate change has driven over 5 million km2 of drylands towards desertification. Internet:<www.sciencedirect.com> (adapted)

Judge the following item about the text presented above.

The two approaches mentioned in the second paragraph diverge as to the reasons for global increase in vegetation greenness.

 

Provas

Questão presente nas seguintes provas
3610451 Ano: 2025
Disciplina: Inglês (Língua Inglesa)
Banca: EVO
Orgão: Pref. Pedras Grandes-SC
Provas:

What is the correct comparative form of the adjective "good" in English?

 

Provas

Questão presente nas seguintes provas