Questões de Inglês - Grammar - Modals - Would
Enchanted bike path inspired by van Gogh’s ‘Starry Night’
“I can’t change the fact that my paintings don’t sell,” Vincent van Gogh once said. “But the time will come when people will recognize that they are worth more than the value of the paints used in the picture.” It is, of course, a terrible shame van Gogh never lived to see the profound impact his art had on the world, forever transforming the way so many of us gaze upon the night sky.
Vincent van Gogh’s wildest dreams probably couldn’t prepare him, for example, for the van Gogh-Roosegaarde Bicycle Path, an enchanting living artwork newly unveiled by Studio Roosegaarde. The kilometer-long path is adorned with a special paint that charges during the day and glows after dark. It runs through the Dutch province of Noord Brabant, where van Gogh was born and raised.
The amazing novelty, at the intersection of art and technology, mimics the ecstatic energy and swirling movement of van Gogh’s original. Each illuminated fleck operates like a brushstroke, adding a small yet crucial element to the whirling, unfathomable whole. “It’s a new system that is self-sufficient and practical, and just incredibly poetic,” says designer Daan Roosegaarde.
A solar panel close by generates power to illuminate the painted surface. Some LED lights are embedded in the path as well, casting extra light especially in the case of foggy weather. The fairy tale bike path is the second of Roosegaarde’s five-part Smart Highways project, which aims to create safe and environmentally friendly road networks. The first manifestation, “Glowing Lines,” employed photo-luminescent paint to brighten the edges of the road.
Internet: <http://www.huffingtonpost.com> (adapted).
Based on the text above, judge the item below.
Vincent van Gogh was confident that one day people would value his art.
You are not alone: dealing with the epidemic of chronic loneliness
Loneliness is worse for you than smoking, and more harmful than obesity. As the number of lonely people in the UK swells, we investigate why feeling alone literally hurts, and how we can stop it from making us ill. By Moya Sarner 19th June, 2019 Today, society is becoming ever more divided. But if there is one thing that’s bringing everyone together, it’s loneliness. Scientists, doctors, charity workers and politicians from across the political spectrum all agree that the loneliness epidemic is a big problem.
By Moya Sarner
19th June, 2019
Today, society is becoming ever more divided. But if there is one thing that’s bringing everyone together, it’s loneliness. Scientists, doctors, charity workers and politicians from across the political spectrum all agree that the loneliness epidemic is a big problem.
A report published in December 2017 by the Jo Cox Commission revealed the staggering extent of loneliness in the UK. Almost one-quarter of parents surveyed by the charity Action for Children said they were “always or often lonely”, more than one-third of people aged 75 and over told Independent Age that their “feelings of loneliness are out of their control”, and over the course of a year more than 4,000 children called Childline because they felt unbearably lonely – some as young as six years old. One recent study found that nine million adults in the UK suffer from chronic loneliness: if all the lonely people moved to one city, it would be bigger than London.
Contrary to stereotypes, research has found that loneliness is not restricted to old age. Research published in Developmental Psychology surveyed 16,132 people and found that while the causes of loneliness in the elderly is well understood, less is known about what causes it in youngsters.
This isn’t just sad – it’s dangerous. Research shows that experiencing chronic loneliness is as bad for our health as smoking 15 cigarettes a day, and worse than obesity. It is associated with an increased risk of developing coronary heart disease and stroke, and increases your likelihood of early mortality by 26 per cent.
But how does this happen? How can an emotional experience be so bad for our physical health? Prof Steve Cole, a medicine and genomics researcher at the University of California, Los Angeles, says part of the answer may lie in the impact loneliness has on our immune system. His research shows that people experiencing chronic loneliness undergo a shift in the molecular programming of their immune cells: instead of being primed to fight viruses, their bodies prepare to fight bacterial infection – the kind that follows a wound or injury. This is the temporary state the body switches into with the fight-or-flight response; the crucial difference is that lonely people get stuck there.
Long term, this leads to higher levels of inflammation, which in turn contributes to cancer, heart attacks, Alzheimer’s and depression. “Loneliness, oddly enough, is one of the most threatening states we confront,” Cole explains.
(Fonte: http://www.sciencefocus.com/thehuman-body/you-arenot-alone-2/)
A autora utiliza as palavras "would", "can" e "may" para modalizar sua fala. Assinale V (verdadeiro) ou F (falso) para as afirmações feitas, de acordo com a função desses verbos em negrito no texto.
( ) O verbo modal "would" indica alta probabilidade, pois é usado em oração condicional.
( ) O verbo modal "can" indica possibilidade.
( ) O verbo modal "may" indica alta capacidade.
A sequência correta é
Responda a questão de acordo com o texto abaixo
The drugs don’t work: what happens after antibiotics?
Antibiotic resistance is growing so fast that routine surgery could soon become impossible. But scientists are fighting back in the battle against infection
1- The first antibiotic that didn’t work for Debbi Forsythe was trimethoprim. In March 2016, Forsythe, a genial primary care counsellor from Morpeth, Northumberland, contracted a urinary tract infection. UTIs are common: more than 150 million people worldwide contract one every year. So when Forsythe saw her GP, they prescribed the usual treatment: a three-day course of antibiotics. When, a few weeks later, she fainted and started passing blood, she saw her GP again, who again prescribed trimethoprim.
2- Three days after that, Forsythe’s husband Pete came home to find his wife lying on the sofa, shaking, unable to call for help. He rushed her to A&E. She was put on a second antibiotic, gentamicin, and treated for sepsis, a complication of the infection that can be fatal if not treated quickly. The gentamicin didn’t work either. Doctors sent Forsythe’s blood for testing, but such tests can take days: bacteria must be grown in cultures, then tested against multiple antibiotics to find a suitable treatment. Five days after she was admitted to hospital, Forsythe was diagnosed with an infection of multi-drug-resistant E coli, and given ertapenem, one of the so-called “last resort” antibiotics.
3- It worked. But damage from Forsythe’s episode has lingered and she lives in constant fear of an infection reoccurring. Six months after her collapse, she developed another UTI, resulting, again, in a hospital stay. “I’ve had to accept that I will no longer get back to where I was,” she says. “My daughter and son said they felt like they lost their mum, because I wasn’t who I used to be.” But Forsythe was fortunate. Sepsis currently kills more people in the UK than lung cancer, and the number is growing, as more of us develop infections immune to antibiotics.
4- Antimicrobial resistance (AMR) – the process of bacteria (and yeasts and viruses) evolving defense mechanisms against the drugs we use to treat them – is progressing so quickly that the UN has called it a “global health emergency”. At least 2 million Americans contract drug-resistant infections every year. So-called “superbugs” spread rapidly, in part because some bacteria are able to borrow resistance genes from neighbouring species via a process called horizontal gene transfer. In 2013, researchers in China discovered E coli containing mcr-1, a gene resistant to colistin, a last-line antibiotic that, until recently, was considered too toxic for human use. Colistin-resistant infections have now been detected in at least 30 countries.
5- “In India and Pakistan, Bangladesh, China, and countries in South America, the resistance problem is already endemic,” says Colin Garner, CEO of Antibiotic Research UK. In May 2016, the UK government’s Review on Antimicrobial Resistance forecast that by 2050 antibiotic-resistant infections could kill 10 million people per year – more than all cancers combined.
6- “We have a good chance of getting to a point where for a lot of people there are no [effective] antibiotics,” Daniel Berman, leader of the Global Health team at Nesta, told me. The threat is difficult to imagine. A world without antibiotics means returning to a time without organ transplants, without hip replacements, without many now-routine surgeries. It would mean millions more women dying in childbirth; make many cancer treatments, including chemotherapy, impossible; and make even the smallest wound potentially lifethreatening. As Berman told me: “Those of us who are following this closely are actually quite scared.”
7- Bacteria are everywhere: in our bodies, in the air, in the soil, coating every surface in their sextillions. Many bacteria produce antibiotic compounds – exactly how many, we don’t know – probably as weapons in a microscopic battle for resources between different strains of bacteria that has been going on for billions of years. Because bacteria reproduce so quickly, they are able to evolve with astonishing speed. Introduce bacteria to a sufficiently weak concentration of an antibiotic and resistance can emerge within days. Penicillin resistance was first documented in 1940, a year before its first use in humans. (A common misconception is that people can become antibioticresistant. They don’t – the bacteria do.)
Oliver Franklin-Wallis Sun 24 Mar 2019 In: https://www.theguardian.com/global/2019/mar/24/ the-drugs-dont-work-what-happens-after-antibiotics
No quinto parágrafo, no trecho “In May 2016, the UK government’s Review on Antimicrobial Resistance forecast that by 2050 antibiotic-resistant infections could kill 10 million people per year – more than all cancers combined”, a locução could kill pode ser substituída por:
Assinale a alternativa que completa a lacuna da tira.
Which of the options completes the dialogue correctly?
The Linden Tree
Mrs Linden: (...) You'd like some tea, you, Rex?
Rex: A cup, certainly.
Jean: And Marion and I.
(Priestley, J.B. “The Linden Tree”. An inspector calis and other plays.UKPenguin, 2001.)