Questões de Vestibular de Inglês - Interpretação de texto | Reading comprehension
Foram encontradas 4.863 questões
Chronic loneliness is as bad for our health as smoking 15 cigarettes a day and as damaging as obesity and physical inactivity. It is linked with depression, dementia and high blood pressure alongside a number of other conditions. Loneliness impacts on our struggling health and social care system, with evidence showing that those living with loneliness are far more likely to visit their local doctor or A&E. New research shows the health cost alone of loneliness is equivalent to some £12,000 per person over 15 years.
National and local policymakers are now waking up. Health and wellbeing boards across England are making loneliness a priority and the Welsh and Scottish governments have recently announced commitments to develop national cross-governmental strategies to address loneliness and social isolation.
We are calling on the UK government to follow suit and commit to the development of a UK-wide strategy for tackling loneliness and social isolation to help end this growing crisis.
Chronic loneliness is as bad for our health as smoking 15 cigarettes a day and as damaging as obesity and physical inactivity. It is linked with depression, dementia and high blood pressure alongside a number of other conditions. Loneliness impacts on our struggling health and social care system, with evidence showing that those living with loneliness are far more likely to visit their local doctor or A&E. New research shows the health cost alone of loneliness is equivalent to some £12,000 per person over 15 years.
National and local policymakers are now waking up. Health and wellbeing boards across England are making loneliness a priority and the Welsh and Scottish governments have recently announced commitments to develop national cross-governmental strategies to address loneliness and social isolation.
We are calling on the UK government to follow suit and commit to the development of a UK-wide strategy for tackling loneliness and social isolation to help end this growing crisis.
The material was designed to be embedded with medicallyuseful electronics, such as conductive wires, semiconductor chips, LED lights, and temperature sensors, according to a study published online December 7, 2015 in the journal Advanced Materials.
Electronics coated in the hydrogel could be placed not only on the surface of the skin but also inside the body—such as implanted biocompatible glucose sensors or soft, compliant neural probes, the researchers wrote.
“Electronics are usually hard and dry, but the human body is soft and wet. These two systems have drastically different properties,” said lead investigator Xuanhe Zhao, Associate Professor in MIT’s Department of Mechanical Engineering.
Dr. Zhao explained, “If you want to put electronics in close contact with the human body for applications such as health care monitoring and drug delivery, it is highly desirable to make the electronic devices soft and stretchable to fit the environment of the human body. That’s the motivation for stretchable hydrogel electronics.”
Current hydrogels are often brittle and made of degradable biomaterials that don’t last long, he explained. So, his team designed a hydrogel that is not only as flexible as human soft tissues, but can bond strongly to non-porous surfaces such as gold, titanium, aluminum, silicon, glass, and ceramic.
It is true to affirm that
The material was designed to be embedded with medicallyuseful electronics, such as conductive wires, semiconductor chips, LED lights, and temperature sensors, according to a study published online December 7, 2015 in the journal Advanced Materials.
Electronics coated in the hydrogel could be placed not only on the surface of the skin but also inside the body—such as implanted biocompatible glucose sensors or soft, compliant neural probes, the researchers wrote.
“Electronics are usually hard and dry, but the human body is soft and wet. These two systems have drastically different properties,” said lead investigator Xuanhe Zhao, Associate Professor in MIT’s Department of Mechanical Engineering.
Dr. Zhao explained, “If you want to put electronics in close contact with the human body for applications such as health care monitoring and drug delivery, it is highly desirable to make the electronic devices soft and stretchable to fit the environment of the human body. That’s the motivation for stretchable hydrogel electronics.”
Current hydrogels are often brittle and made of degradable biomaterials that don’t last long, he explained. So, his team designed a hydrogel that is not only as flexible as human soft tissues, but can bond strongly to non-porous surfaces such as gold, titanium, aluminum, silicon, glass, and ceramic.
Read the graph below and answer the following question.
Adaptado de: <https://brainly.com/question/2608462>
Read the comic strip below and answer the following question based on it.
Disponível em:< http://www.guysports.com/funny/doctor_cartoon.htm>. Acessado em 5 de abril de
2018.
Read the illustration below and answer the following question based on it.
Disponível em:<
https://i.pinimg.com/originals/33/82/af/3382af7d4f90bbed0e333770
abbc317e.jpg>. Acessado em 2 de abril de 2018
Read the text below and answer the following question based on it.
More than half your body is not human
Human cells make up only 43% of the body's total cell count. The rest are microscopic colonists.
Understanding this hidden half of ourselves - our microbiome - is rapidly transforming understanding of diseases from allergy to Parkinson's.
No matter how well you wash, nearly every nook and cranny of your body is covered in microscopic creatures.
This includes bacteria, viruses, fungi and archaea (organisms originally misclassified as bacteria). The greatest concentration of this microscopic life is in the dark murky depths of our oxygen-deprived bowels.
The human genome - the full set of genetic instructions for a human being - is made up of 20,000 instructions called genes.
But add all the genes in our microbiome together and the figure comes out between two and 20 million microbial genes.
Prof Sarkis Mazmanian, a microbiologist from Caltech, argues: "We don't have just one genome, the genes of our microbiome present essentially a second genome which augment the activity of our own.
Science is rapidly uncovering the role the microbiome plays in digestion, regulating the immune system, protecting against disease and manufacturing vital vitamins.
It is a new way of thinking about the microbial world. To date, our relationship with microbes has largely been one of warfare.
Antibiotics and vaccines have been the weapons unleashed against the likes of smallpox, Mycobacterium tuberculosis or MRSA.
That's been a good thing and has saved large numbers of lives.
But some researchers are concerned that our assault on the bad guys has done untold damage to our "good bacteria".
Prof Knight has performed experiments on mice that were born in the most sanitised world imaginable.
He says: "We were able to show that if you take lean and obese humans and take their faeces and transplant the bacteria into mice you can make the mouse thinner or fatter depending on whose microbiome it got."
"This is pretty amazing right, but the question now is will this be translatable to humans"
This is the big hope for the field, that microbes could be a new form of medicine. It is known as using "bugs as drugs".
Adaptado de: < http://www.bbc.com/news/health-43674270> Acessado em 13 de abril de 2018.
Read the text below and answer the following question based on it.
More than half your body is not human
Human cells make up only 43% of the body's total cell count. The rest are microscopic colonists.
Understanding this hidden half of ourselves - our microbiome - is rapidly transforming understanding of diseases from allergy to Parkinson's.
No matter how well you wash, nearly every nook and cranny of your body is covered in microscopic creatures.
This includes bacteria, viruses, fungi and archaea (organisms originally misclassified as bacteria). The greatest concentration of this microscopic life is in the dark murky depths of our oxygen-deprived bowels.
The human genome - the full set of genetic instructions for a human being - is made up of 20,000 instructions called genes.
But add all the genes in our microbiome together and the figure comes out between two and 20 million microbial genes.
Prof Sarkis Mazmanian, a microbiologist from Caltech, argues: "We don't have just one genome, the genes of our microbiome present essentially a second genome which augment the activity of our own.
Science is rapidly uncovering the role the microbiome plays in digestion, regulating the immune system, protecting against disease and manufacturing vital vitamins.
It is a new way of thinking about the microbial world. To date, our relationship with microbes has largely been one of warfare.
Antibiotics and vaccines have been the weapons unleashed against the likes of smallpox, Mycobacterium tuberculosis or MRSA.
That's been a good thing and has saved large numbers of lives.
But some researchers are concerned that our assault on the bad guys has done untold damage to our "good bacteria".
Prof Knight has performed experiments on mice that were born in the most sanitised world imaginable.
He says: "We were able to show that if you take lean and obese humans and take their faeces and transplant the bacteria into mice you can make the mouse thinner or fatter depending on whose microbiome it got."
"This is pretty amazing right, but the question now is will this be translatable to humans"
This is the big hope for the field, that microbes could be a new form of medicine. It is known as using "bugs as drugs".
Adaptado de: < http://www.bbc.com/news/health-43674270> Acessado em 13 de abril de 2018.
Read the text below and answer the following question based on it.
More than half your body is not human
Human cells make up only 43% of the body's total cell count. The rest are microscopic colonists.
Understanding this hidden half of ourselves - our microbiome - is rapidly transforming understanding of diseases from allergy to Parkinson's.
No matter how well you wash, nearly every nook and cranny of your body is covered in microscopic creatures.
This includes bacteria, viruses, fungi and archaea (organisms originally misclassified as bacteria). The greatest concentration of this microscopic life is in the dark murky depths of our oxygen-deprived bowels.
The human genome - the full set of genetic instructions for a human being - is made up of 20,000 instructions called genes.
But add all the genes in our microbiome together and the figure comes out between two and 20 million microbial genes.
Prof Sarkis Mazmanian, a microbiologist from Caltech, argues: "We don't have just one genome, the genes of our microbiome present essentially a second genome which augment the activity of our own.
Science is rapidly uncovering the role the microbiome plays in digestion, regulating the immune system, protecting against disease and manufacturing vital vitamins.
It is a new way of thinking about the microbial world. To date, our relationship with microbes has largely been one of warfare.
Antibiotics and vaccines have been the weapons unleashed against the likes of smallpox, Mycobacterium tuberculosis or MRSA.
That's been a good thing and has saved large numbers of lives.
But some researchers are concerned that our assault on the bad guys has done untold damage to our "good bacteria".
Prof Knight has performed experiments on mice that were born in the most sanitised world imaginable.
He says: "We were able to show that if you take lean and obese humans and take their faeces and transplant the bacteria into mice you can make the mouse thinner or fatter depending on whose microbiome it got."
"This is pretty amazing right, but the question now is will this be translatable to humans"
This is the big hope for the field, that microbes could be a new form of medicine. It is known as using "bugs as drugs".
Adaptado de: < http://www.bbc.com/news/health-43674270> Acessado em 13 de abril de 2018.
Read the text below and answer the following question based on it.
Disponível em:< https://www.whistleblowersecurity.com/globalcorruption-money-power-and-ethics/>. Acessado em 10 de outubro
de 2017.
Read the chart below and answer the following question according to it.
Disponível em: https://www.weforum.org/agenda/2016/01/theseare-the-world-s-least-corrupt-nations-but-are-they-exporting-theircorruption/ Acessado em 10 de outubro de 2017
Conheça nossos planos