(IME - 2020/2021 - 2 FASE) Text 2 COVID-19s impact on mobile robotics growth The COVID 19 pandemic is creating the opportunity for mobile robots to be used for various markets and could lead to a reassessment of supply chains in the future. Gregory Hale Coronavirus has highlighted use cases for mobile robotics to successfully disinfect, monitor, look over, handle, and deliver materials to the point where the market will grow to $23 billion by 2021, new research showed. Crises shift perceptions on what is possible regarding investment and transformative action on the part of both private and government actors, said Rian Whitton, senior analyst at tech market advisory firm, ABI Research. By the time the COVID-19 pandemic has passed, robots will be mainstreamed across a range of applications and markets. Mobile robots on display The virus has been a good opportunity for companies to display robots for public applications. One of the more popular applications has been deploying mobile unmanned platforms with Ultraviolet (UV) light to disinfect facilities. Danish company UVD Robots is reaping the benefits of this opportunity and is scaling up deployments of robots to disinfect hospitals. U.S.-based Germ Falcon is offering a similar UV disinfection solution for aircraft, while Chinese TMiRob is deploying disinfection robots in Wuhan. Automating disinfection is a key part of maintaining health and safety and could be one of the major bright spots in the response to COVID-19, Whitton said. Drones have also been deployed to enforce curfews and surveil areas for security purposes. Short- and long-term opportunities This represents a big opportunity for aerospace and drone companies to increase sales to government agencies. ABI Research expects the small drone delivery market to reach $414 million by 2021 and $10.4 billion by 2030. In the short term, to enforce quarantine mandates, governments will need to increase their security apparatuses, as well as the productivity of their medical agencies. Robots will be key to achieving that through disinfection, monitoring, and surveillance. Furthermore, the shutting down of households and even ships represents a chance for robot delivery companies (for both land and air) to display their worth. The drone delivery market could take its experience with transporting supplies in the developing world and scale up their operations in the most affected countries. Long-term, COVID-19 is leading to a significant reassessment of the global manufacturing supply chain. Americas dependence on Chinese imports for basic equipment and medicines is becoming a contentious issue, and government representatives are already interpreting the crisis as a chance to revitalize the campaign to bring more manufacturing capacity to the domestic market. If this translates into more significant measures by governments to diversify or bringing back the manufacturing of key goods, this could bode very well for the robotics industry, as such changes would require big increases in CAPEX and productivity improvements within developed countries. COVID-19 represents a disaster for robotics vendors building solutions for developed markets in manufacturing, industry, and the supply chain. But for vendors targeting markets closer to government, such as health, security, and defense, it represents a big opportunity. Whitton said, Industrial players develop customized solutions for non-manufacturing use cases or look to build comprehensive solutions for enabling a scale-up in medical supply manufacturing. For mobile robotics vendors and software companies targeting more nascent markets, this represents a big chance to highlight the importance of robotics for dealing with national emergencies, as well as mitigating the economic shock. Available at: https://isssource.com/covid-19-and-growth-of-mobile-robotics/ Choose the correct option
(IME - 2020/2021 - 2 FASE) Text 3 Mathematical Modeling of Epidemic Diseases; A Case Study of the COVID-19 Coronavirus Reza Sameni Abstract The outbreak of the Coronavirus COVID-19 has taken the lives of several thousands worldwide and lockedout many countries and regions, with yet unpredictable global consequences. In this research we study the epidemic patterns of this virus, from a mathematical modeling perspective. The study is based on an extensions of the well-known susceptible-infected recovered (SIR) family of compartmental models. It is shown how social measures such as distancing, regional lockdowns, quarantine and global public health vigilance, influence the model parameters, which can eventually change the mortality rates and active contaminated cases over time, in the real world. As with all mathematical models, the predictive ability of the model is limited by the accuracy of the available data and to the so-called level of abstraction used for modeling the problem. In order to provide the broader audience of researchers a better understanding of spreading patterns of epidemic diseases, a short introduction on biological systems modeling is also presented and the Matlab source codes for the simulations are provided online. I. INTRODUCTION Since the outbreak of the Coronavirus COVID-19 in January 2020, the virus has affected most countries and taken the lives of several thousands of people worldwide. By March 2020, the World Health Organization (WHO) declared the situation a pandemic, the first of its kind in our generation. To date, many countries and regions have been locked-down and applied strict social distancing measures to stop the virus propagation. From a strategic and healthcare management perspective, the propagation pattern of the disease and the prediction of its spread over time is of great importance, to save lives and to minimize the social and economic consequences of the disease. Within the scientific community, the problem of interest has been studied in various communities including mathematical epidemiology, biological systems modeling, signal processing and control engineering. In this study, epidemic outbreaks are studied from an interdisciplinary perspective, by using an extension of the susceptible-exposed-infected-recovered (SEIR) model, which is a mathematical compartmental model based on the average behavior of a population under study. The objective is to provide researchers a better understanding of the significance of mathematical modeling for epidemic diseases. It is shown by simulation, how social measures such as distancing, regional lockdowns and public health vigilance, can influence the model parameters, which in turns change the mortality rates and active contaminated cases over time. It should be highlighted that mathematical models applied to real-world systems (social, biological, economical, etc.) are only valid under their assumptions and hypothesis. Therefore, this research and similar ones that address epidemic patterns, do not convey direct clinical information and dangers for the public, but should rather be used by healthcare strategists for better planning and decision making. Hence, the study of this work is only recommended for researchers familiar with the strength points and limitations of mathematical modeling of biological systems. The Matlab codes required for reproducing the results of this research are also online available in the Git repository of the project. In Section II, a brief introduction to mathematical modeling of biological systems is presented, to highlight the scope of the present study and to open perspectives for the interested researchers, who may be less familiar with the context. The proposed model for the outspread of the Coronavirus is presented in Section III. The article is concluded with some general remarks and future perspectives. Adapted from: Mathematical Modeling of Epidemic Diseases; A Case Study of the COVID-19 Coronavirus. Avaliable at: arxiv.org/abs/2003.11371 [Accessed 6th June 2020]. Text 4 Mathematical modeling of the spread of the coronavirus disease 2019 (COVID-19) taking into account the undetected infections. The case of China B. Ivorra, M.R. Ferrndez, M. Vela-Prez and A.M. Ramosa Abstract In this paper we develop a mathematical model for the spread of the coronavirus disease 2019 (COVID-19). It is a new -SEIHRD model (not a SIR, SEIR or other general purpose model), which takes into account the known special characteristics of this disease, as the existence of infectious undetected cases and the different sanitary and infectiousness conditions of hospitalized people. In particular, it includes a novel approach that considers the fraction of detected cases over the real total infected cases, which allows to study the importance of this ratio on the impact of COVID-19. The model is also able to estimate the needs of beds in hospitals. It is complex enough to capture the most important effects, but also simple enough to allow an affordable identification of its parameters, using the data that authorities report on this pandemic. We study the particular case of China (including Chinese Mainland, Macao, Hong-Kong and Taiwan, as done by the World Health Organization in its reports on COVID-19), the country spreading the disease, and use its reported data to identify the model parameters, which can be of interest for estimating the spread of COVID-19 in other countries. We show a good agreement between the reported data and the estimations given by our model. We also study the behavior of the outputs returned by our model when considering incomplete reported data (by truncating them at some dates before and after the peak of daily reported cases). By comparing those results, we can estimate the error produced by the model when identifying the parameters at early stages of the pandemic. Finally, taking into account the advantages of the novelties introduced by our model, we study different scenarios to show how different values of the percentage of detected cases would have changed the global magnitude of COVID-19 in China, which can be of interest for policy makers. Keywords: Mathematical model, -SEIHRD model, COVID-19, Coronavirus, SARS-CoV-2, Pandemic, Numerical simulation, Parameter estimation 1. Introduction Modeling and simulation are important decision tools that can be useful to control human and animal diseases. However, since each disease exhibits its own particular biological characteristics, the models need to be adapted to each specific case in order to be able to tackle real situations. Coronavirus disease 2019 (COVID-19) is an infectious disease emerging in China in December 2019 that has rapidly spread around China and many other countries. On 11 February 2020, the World Health Organization (WHO) renamed the epidemic disease caused by 2019-nCoV as strain severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) This is a new virus and a completely new situation. On 30 January 2020, WHO declared it to be a Public Health Emergency of International Concern. As of 11 March 2020, the disease was confirmed in more than 118,000 cases reported globally in 114 countries, more than 90 percent of cases are in just four countries (two of those China and the Republic of Korea - have significantly declining epidemics) and WHO declared it to be a pandemic, the first one caused by a coronavirus. On 1 April 2020 there are 872,481 and 43,275 official reported cases and deaths, respectively, and there is no vaccine specifically designed for this virus, with proven effectiveness. There are some mathematical models in the literature that try to describe the dynamics of the evolution of COVID-19. (...) Other works propose SEIR type models with little variations and some of them incorporate stochastic components. COVID-19 is a disease caused by a new virus, which is generating a worldwide emergency situation and needs a model taking into account its known specific characteristics. Adaptec from: Mathematical modeling of the spread of the coronavirus disease 2019 (COVID-19) taking into account the undetected infections. The case of China. In: Elsevier Public Health Emergency Colletion, 2020. Avaliable at: https://www.mcbi.nlm.nih.gov/pmc/articles/PMC7190554/ [Accessed 4th June 2020]. Choose the correct option:
(IME - 2020/2021 - 2 FASE) Text 3 Mathematical Modeling of Epidemic Diseases; A Case Study of the COVID-19 Coronavirus Reza Sameni Abstract The outbreak of the Coronavirus COVID-19 has taken the lives of several thousands worldwide and lockedout many countries and regions, with yet unpredictable global consequences. In this research we study the epidemic patterns of this virus, from a mathematical modeling perspective. The study is based on an extensions of the well-known susceptible-infected recovered (SIR) family of compartmental models. It is shown how social measures such as distancing, regional lockdowns, quarantine and global public health vigilance, influence the model parameters, which can eventually change the mortality rates and active contaminated cases over time, in the real world. As with all mathematical models, the predictive ability of the model is limited by the accuracy of the available data and to the so-called level of abstraction used for modeling the problem. In order to provide the broader audience of researchers a better understanding of spreading patterns of epidemic diseases, a short introduction on biological systems modeling is also presented and the Matlab source codes for the simulations are provided online. I. INTRODUCTION Since the outbreak of the Coronavirus COVID-19 in January 2020, the virus has affected most countries and taken the lives of several thousands of people worldwide. By March 2020, the World Health Organization (WHO) declared the situation a pandemic, the first of its kind in our generation. To date, many countries and regions have been locked-down and applied strict social distancing measures to stop the virus propagation. From a strategic and healthcare management perspective, the propagation pattern of the disease and the prediction of its spread over time is of great importance, to save lives and to minimize the social and economic consequences of the disease. Within the scientific community, the problem of interest has been studied in various communities including mathematical epidemiology, biological systems modeling, signal processing and control engineering. In this study, epidemic outbreaks are studied from an interdisciplinary perspective, by using an extension of the susceptible-exposed-infected-recovered (SEIR) model, which is a mathematical compartmental model based on the average behavior of a population under study. The objective is to provide researchers a better understanding of the significance of mathematical modeling for epidemic diseases. It is shown by simulation, how social measures such as distancing, regional lockdowns and public health vigilance, can influence the model parameters, which in turns change the mortality rates and active contaminated cases over time. It should be highlighted that mathematical models applied to real-world systems (social, biological, economical, etc.) are only valid under their assumptions and hypothesis. Therefore, this research and similar ones that address epidemic patterns, do not convey direct clinical information and dangers for the public, but should rather be used by healthcare strategists for better planning and decision making. Hence, the study of this work is only recommended for researchers familiar with the strength points and limitations of mathematical modeling of biological systems. The Matlab codes required for reproducing the results of this research are also online available in the Git repository of the project. In Section II, a brief introduction to mathematical modeling of biological systems is presented, to highlight the scope of the present study and to open perspectives for the interested researchers, who may be less familiar with the context. The proposed model for the outspread of the Coronavirus is presented in Section III. The article is concluded with some general remarks and future perspectives. Adapted from:Mathematical Modeling of Epidemic Diseases; A Case Study of the COVID-19 Coronavirus. Avaliable at: arxiv.org/abs/2003.11371 [Accessed 6th June 2020]. Text 4 Mathematical modeling of the spread of the coronavirus disease 2019 (COVID-19) taking into account the undetected infections. The case of China B. Ivorra, M.R. Ferrndez, M. Vela-Prez and A.M. Ramosa Abstract In this paper we develop a mathematical model for the spread of the coronavirus disease 2019 (COVID-19). It is a new -SEIHRD model (not a SIR, SEIR or other general purpose model), which takes into account the known special characteristics of this disease, as the existence of infectious undetected cases and the different sanitary and infectiousness conditions of hospitalized people. In particular, it includes a novel approach that considers the fraction of detected cases over the real total infected cases, which allows to study the importance of this ratio on the impact of COVID-19. The model is also able to estimate the needs of beds in hospitals. It is complex enough to capture the most important effects, but also simple enough to allow an affordable identification of its parameters, using the data that authorities report on this pandemic. We study the particular case of China (including Chinese Mainland, Macao, Hong-Kong and Taiwan, as done by the World Health Organization in its reports on COVID-19), the country spreading the disease, and use its reported data to identify the model parameters, which can be of interest for estimating the spread of COVID-19 in other countries. We show a good agreement between the reported data and the estimations given by our model. We also study the behavior of the outputs returned by our model when considering incomplete reported data (by truncating them at some dates before and after the peak of daily reported cases). By comparing those results, we can estimate the error produced by the model when identifying the parameters at early stages of the pandemic. Finally, taking into account the advantages of the novelties introduced by our model, we study different scenarios to show how different values of the percentage of detected cases would have changed the global magnitude of COVID-19 in China, which can be of interest for policy makers. Keywords: Mathematical model, -SEIHRD model, COVID-19, Coronavirus, SARS-CoV-2, Pandemic, Numerical simulation, Parameter estimation 1. Introduction Modeling and simulation are important decision tools that can be useful to control human and animal diseases. However, since each disease exhibits its own particular biological characteristics, the models need to be adapted to each specific case in order to be able to tackle real situations. Coronavirus disease 2019 (COVID-19) is an infectious disease emerging in China in December 2019 that has rapidly spread around China and many other countries. On 11 February 2020, the World Health Organization (WHO) renamed the epidemic disease caused by 2019-nCoV as strain severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) This is a new virus and a completely new situation. On 30 January 2020, WHO declared it to be a Public Health Emergency of International Concern. As of 11 March 2020, the disease was confirmed in more than 118,000 cases reported globally in 114 countries, more than 90 percent of cases are in just four countries (two of those China and the Republic of Korea - have significantly declining epidemics) and WHO declared it to be a pandemic, the first one caused by a coronavirus. On 1 April 2020 there are 872,481 and 43,275 official reported cases and deaths, respectively, and there is no vaccine specifically designed for this virus, with proven effectiveness. There are some mathematical models in the literature that try to describe the dynamics of the evolution of COVID-19. (...) Other works propose SEIR type models with little variations and some of them incorporate stochastic components. COVID-19 is a disease caused by a new virus, which is generating a worldwide emergency situation and needs a model taking into account its known specific characteristics. Adaptec from:Mathematical modeling of the spread of the coronavirus disease 2019 (COVID-19) taking into account the undetected infections. The case of China.In: Elsevier Public Health Emergency Colletion, 2020. Avaliable at: https://www.mcbi.nlm.nih.gov/pmc/articles/PMC7190554/ [Accessed 4th June 2020]. Choose the correct option:
(IME - 2020/2021 - 2 FASE) Text 3 Mathematical Modeling of Epidemic Diseases; A Case Study of the COVID-19 Coronavirus Reza Sameni Abstract The outbreak of the Coronavirus COVID-19 has taken the lives of several thousands worldwide and lockedout many countries and regions, with yet unpredictable global consequences. In this research we study the epidemic patterns of this virus, from a mathematical modeling perspective. The study is based on an extensions of the well-known susceptible-infected recovered (SIR) family of compartmental models. It is shown how social measures such as distancing, regional lockdowns, quarantine and global public health vigilance, influence the model parameters, which can eventually change the mortality rates and active contaminated cases over time, in the real world. As with all mathematical models, the predictive ability of the model is limited by the accuracy of the available data and to the so-called level of abstraction used for modeling the problem. In order to provide the broader audience of researchers a better understanding of spreading patterns of epidemic diseases, a short introduction on biological systems modeling is also presented and the Matlab source codes for the simulations are provided online. I. INTRODUCTION Since the outbreak of the Coronavirus COVID-19 in January 2020, the virus has affected most countries and taken the lives of several thousands of people worldwide. By March 2020, the World Health Organization (WHO) declared the situation a pandemic, the first of its kind in our generation. To date, many countries and regions have been locked-down and applied strict social distancing measures to stop the virus propagation. From a strategic and healthcare management perspective, the propagation pattern of the disease and the prediction of its spread over time is of great importance, to save lives and to minimize the social and economic consequences of the disease. Within the scientific community, the problem of interest has been studied in various communities including mathematical epidemiology, biological systems modeling, signal processing and control engineering. In this study, epidemic outbreaks are studied from an interdisciplinary perspective, by using an extension of the susceptible-exposed-infected-recovered (SEIR) model, which is a mathematical compartmental model based on the average behavior of a population under study. The objective is to provide researchers a better understanding of the significance of mathematical modeling for epidemic diseases. It is shown by simulation, how social measures such as distancing, regional lockdowns and public health vigilance, can influence the model parameters, which in turns change the mortality rates and active contaminated cases over time. It should be highlighted that mathematical models applied to real-world systems (social, biological, economical, etc.) are only valid under their assumptions and hypothesis. Therefore, this research and similar ones that address epidemic patterns, do not convey direct clinical information and dangers for the public, but should rather be used by healthcare strategists for better planning and decision making. Hence, the study of this work is only recommended for researchers familiar with the strength points and limitations of mathematical modeling of biological systems. The Matlab codes required for reproducing the results of this research are also online available in the Git repository of the project. In Section II, a brief introduction to mathematical modeling of biological systems is presented, to highlight the scope of the present study and to open perspectives for the interested researchers, who may be less familiar with the context. The proposed model for the outspread of the Coronavirus is presented in Section III. The article is concluded with some general remarks and future perspectives. Adapted from:Mathematical Modeling of Epidemic Diseases; A Case Study of the COVID-19 Coronavirus. Avaliable at: arxiv.org/abs/2003.11371 [Accessed 6th June 2020]. Text 4 Mathematical modeling of the spread of the coronavirus disease 2019 (COVID-19) taking into account the undetected infections. The case of China B. Ivorra, M.R. Ferrndez, M. Vela-Prez and A.M. Ramosa Abstract In this paper we develop a mathematical model for the spread of the coronavirus disease 2019 (COVID-19). It is a new -SEIHRD model (not a SIR, SEIR or other general purpose model), which takes into account the known special characteristics of this disease, as the existence of infectious undetected cases and the different sanitary and infectiousness conditions of hospitalized people. In particular, it includes a novel approach that considers the fraction of detected cases over the real total infected cases, which allows to study the importance of this ratio on the impact of COVID-19. The model is also able to estimate the needs of beds in hospitals. It is complex enough to capture the most important effects, but also simple enough to allow an affordable identification of its parameters, using the data that authorities report on this pandemic. We study the particular case of China (including Chinese Mainland, Macao, Hong-Kong and Taiwan, as done by the World Health Organization in its reports on COVID-19), the country spreading the disease, and use its reported data to identify the model parameters, which can be of interest for estimating the spread of COVID-19 in other countries. We show a good agreement between the reported data and the estimations given by our model. We also study the behavior of the outputs returned by our model when considering incomplete reported data (by truncating them at some dates before and after the peak of daily reported cases). By comparing those results, we can estimate the error produced by the model when identifying the parameters at early stages of the pandemic. Finally, taking into account the advantages of the novelties introduced by our model, we study different scenarios to show how different values of the percentage of detected cases would have changed the global magnitude of COVID-19 in China, which can be of interest for policy makers. Keywords: Mathematical model, -SEIHRD model, COVID-19, Coronavirus, SARS-CoV-2, Pandemic, Numerical simulation, Parameter estimation 1. Introduction Modeling and simulation are important decision tools that can be useful to control human and animal diseases. However, since each disease exhibits its own particular biological characteristics, the models need to be adapted to each specific case in order to be able to tackle real situations. Coronavirus disease 2019 (COVID-19) is an infectious disease emerging in China in December 2019 that has rapidly spread around China and many other countries. On 11 February 2020, the World Health Organization (WHO) renamed the epidemic disease caused by 2019-nCoV as strain severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) This is a new virus and a completely new situation. On 30 January 2020, WHO declared it to be a Public Health Emergency of International Concern. As of 11 March 2020, the disease was confirmed in more than 118,000 cases reported globally in 114 countries, more than 90 percent of cases are in just four countries (two of those China and the Republic of Korea - have significantly declining epidemics) and WHO declared it to be a pandemic, the first one caused by a coronavirus. On 1 April 2020 there are 872,481 and 43,275 official reported cases and deaths, respectively, and there is no vaccine specifically designed for this virus, with proven effectiveness. There are some mathematical models in the literature that try to describe the dynamics of the evolution of COVID-19. (...) Other works propose SEIR type models with little variations and some of them incorporate stochastic components. COVID-19 is a disease caused by a new virus, which is generating a worldwide emergency situation and needs a model taking into account its known specific characteristics. Adaptec from:Mathematical modeling of the spread of the coronavirus disease 2019 (COVID-19) taking into account the undetected infections. The case of China.In: Elsevier Public Health Emergency Colletion, 2020. Avaliable at: https://www.mcbi.nlm.nih.gov/pmc/articles/PMC7190554/ [Accessed 4th June 2020]. Choose the correct option
(IME - 2019/2020 - 2 FASE) Texto 1 ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (21):
(IME - 2019/2020 - 2 FASE) Texto 1 ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert.On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (22):
(IME - 2019/2020 - 2 FASE) Texto 1 ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert.On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (23):
(IME - 2019/2020 - 2 FASE) ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert.On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (24):
(IME - 2019/2020 - 2 FASE) Texto 1 PARA A QUESTO, ESCOLHA A ALTERNATIVA QUE COMPLETA O TEXTO 1 APROPRIADAMENTE. ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (25):
(IME - 2019/2020 - 2 FASE) Texto 1 PARA RESPONDER A QUESTO, ESCOLHA A ALTERNATIVA QUE COMPLETA O TEXTO 1 APROPRIADAMENTE. ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (26):
(IME - 2019/2020 - 2 FASE) Texto 1 PARA RESPONDER A QUESTO, ESCOLHA A ALTERNATIVA QUE COMPLETA O TEXTO 1 APROPRIADAMENTE. ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (27):
(IME - 2019/2020 - 2 FASE) Texto 1 ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ___(21)___ on board H.M.S. Beagle, as naturalist, I was much ___(22)___with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)___ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. ___(24)___ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ___(25)___ of the conclusions, which ___(26)___ seemed to me probable: from that period to the present day I ___(27)___ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ___(28)___ in coming to a decision. My work is now nearly finished; but ___(29)___ it will take me two or three more years to complete it, and as my health is far from strong, ___(30)___ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em http://www.vliz.be/docs/Zeecijfers/. Acesso em: 02/08/2019. ESCOLHA A ALTERNATIVA QUE COMPLETA A LACUNA 28APROPRIADAMENTE.
(IME - 2019/2020 - 2 FASE) Texto 1 PARA RESPONDER A QUESTO, ESCOLHA A ALTERNATIVA QUE COMPLETA O TEXTO 1 APROPRIADAMENTE. ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (29):
(IME - 2019/2020 - 2 FASE) Texto 1 ON THE ORIGIN OF SPECIES BY MEANS OF NATURAL SELECTION, OR THE PRESERVATION OF FAVOURED RACES IN THE STRUGGLE FOR LIFE CHARLES DARWIN, M.A. Fellow of the Royal, Geological, Linnan, etc. societies; Author of Journal of researches during H. M. S. Beagles Voyage round the world. London: John Murray, Albemarle Street, 1859. Introduction ____(21)______ on board H.M.S. Beagle, as naturalist, I was much ____(22)______ with certain facts in the distribution of the inhabitants of South America, and in the geological relations of the present to the past inhabitants of that continent. These facts seemed to me to ___(23)_______ some light on the origin of speciesthat mystery of mysteries, as it has been called by one of our greatest philosophers. _____(24)_____ my return home, it occurred to me, in 1837, that something might perhaps be made out on this question by patiently accumulating and reflecting on all sorts of facts which could possibly have any bearing on it. After five years work I allowed myself to speculate on the subject, and drew up some short notes; these I enlarged in 1844 into a ____(25)______ of the conclusions, which ____(26)______ seemed to me probable: from that period to the present day I ____(27)______ the same object. I hope that I may be excused for entering on these personal details, as I give them to show that I have not been ____(28)______ in coming to a decision. My work is now nearly finished; but ___(29)_______ it will take me two or three more years to complete it, and as my health is far from strong, ____(30)______ to publish this Abstract. [...] Extrado de DARWIN, Charles Robert. On the Origin of Species. Disponvel em: . Acesso em: 02/08/2019. Fill in the blank (30):
(IME - 2019/2020 - 2 FASE) Texto 2 HALF A CENTURY AGO, THE MOON LANDING SHOWED US THE FRAGILITY OF OUR PLANET, AND THAT NOTHING WAS IMPOSSIBLE. Dr Dame SUE ION, DBE FREng FRS Chair of the UK Nuclear Innovation Research Advisory Board and chair of the judging panel for the MacRobert Award for engineering innovation. Fifty years ago, the Apollo 11 space mission took its place in global history. I remember watching the Apollo 11 moon landing. It was an amazing achievement, enabled by a brilliant team of engineers, scientists and technicians at Nasa. I was still at school, and we were utterly awed by the engineering and ingenuity that made it happen. [...] Today, half a century later, its important to remember how crucial the inspiration of that one small step was to a new generation of engineers around the world it would underpin so many of the innovations we take for granted today. Here in the UK, a new Britain was being forged in the white heat of technology. The MacRobert Award for Engineering Innovation was presented for the first time in 1969. Established by the MacRobert Trust, the medal features a man leaping for the moon to commemorate the lunar landing, and the 50,000 prize recognises those that meet three key criteria commercial success, societal benefit, and true innovation. In a year that saw Americans on the moon, ___________(33)_____________. They announced joint winners: a team from Freeman, Fox and Partners for the aerodynamic deck design of the Severn Bridge later used for long-span bridges all over the world and a team from Rolls-Royce for the Pegasus engine that powered the Harrier, the worlds first vertical take-off and landing aircraft. Since 1969, the global influence of winning British innovations has been maintained, with a host of world firsts, including the CT scanner in 1972, the first bionic hand in 2008 and Raspberry Pi, the worlds most affordable computer, in 2017. [] Adaptado de The Indepedent. Disponvel em: . Acesso em: 14/08/2019. Choose the correct option.