I may still be feeling the effects of anesthesia when I come home from the hospital, so I hope you are willing to accompany with me there tomorrow and bring me back.

A.may still be feeling B.when I come home from the C.are willing D.accompany with me E.没有问题

s="" mood="" darkened,="" and="" she="" began="" to="" look="" into="" other="" possibilities.="" when="" her="" request="" for="" a="" （14）to="" the="" company’s="" seattle="" office="" was="" blocked="" by="" boss,="" decided="" it="" time="" action.="" an="" ambitious="" job="" hunt="" that="" led="" tentative="" offer="" from="" one="" of="" employer’s="" competitors.="" just="" as="" getting（15）="" announce="" quitting="" in="" month,="" called="" boss’s="" abruptly（16）="" .="" this="" great（17）.="" admittedly,="" relations="" with="" boss="" were="" poor,="" but="" had="" always（18）="" out="" duties="" conscientiously.After thinking over her situation, she decided not to （19）about theunfairness of her director's decision. The tentative job offer from the other company was soon （20） ; Ann accepted it and never looked back.句意:安•威辛顿在大学毕业后几个月就在一家较大保险公司找到了工作。虽然她的新 老板并没有给予她多少鼓励，但是她工作勤勤恳恳，很快就适应了工作。由于她的脾气好且乐意帮助人，不久后她就变得很受大家欢迎。在她进入这家公司的头五年里，她被提拔了两次，每次工资都涨了很多。但是这之后她的事业就开始走下坡路。她的 第一任主管，一位50多岁的男性，很满意将安视为竞争对手的一个更年轻的女员工。 她不断批评她（即Ann）的工作，但却未就如何改进工作给出任何建议。数周过去了， 安尽最大的努力去让这位新主管满意，但是后者对她的态度没有任何改变。最终，安 的心情也变得一片灰暗，于是她开始寻求新的出路。她申请到公司在西雅图的分支机 构工作，这一请求被老板拦下。她认为是时候采取行动了。她满腔热情地开始寻找工 作，最后从公司的竞争对手那里获取得到了一份工作机会。正当她准备宣布在一个月 后辞职时，她被老板叫到了办公室，然后被突然告知自己被解雇了。这是个极大的侮 辱。诚然，她与老板的关系很差，但是她依然认真地履行她的职责。再三思考之后， 她决定不去抱怨她的主管决定的不公。不久，新单位的入职通知书到了，安头也不回地离开了。'>

Ann Withington got a（1） with a major insurance firm a few monthsafter she（2） from university. （3）she received little encouragement（4） her new boss, she worked hard and soon became very good at her tasks and duties. Thanks to her sunny temperament and willingness to help her colleagues, she soon became quite（5） as well. In her first five years with the company she was（6） twice, and （7）time her salary went up substantially.But then her career took a turn for the worse. Her first director, a man in（8）fifties, was（9） with a younger woman who seemed to regard Ann as a rival. She constantly（10 ） her work but never offered any（11） about how it could be improved. Weeks passed and Ann tried her（12）to please the new director, but there was no change in the latter’s（13）towards her.Eventually Ann's mood darkened, and she began to look into other possibilities. When her request for a （14）to the company’s Seattle office was blocked by her boss, she decided it was time for action. She began an ambitious job hunt that led to a tentative offer from one of her employer’s competitors. Just as she was getting（15） to announce that she was quitting her job in a month, she was called into her boss’s office and abruptly（16） . This was a great（17）. Admittedly, her relations with her boss were poor, but she had always（18） out her duties conscientiously.After thinking over her situation, she decided not to （19）about theunfairness of her director's decision. The tentative job offer from the other company was soon （20） ; Ann accepted it and never looked back.句意:安•威辛顿在大学毕业后几个月就在一家较大保险公司找到了工作。虽然她的新 老板并没有给予她多少鼓励，但是她工作勤勤恳恳，很快就适应了工作。由于她的脾气好且乐意帮助人，不久后她就变得很受大家欢迎。在她进入这家公司的头五年里，她被提拔了两次，每次工资都涨了很多。但是这之后她的事业就开始走下坡路。她的 第一任主管，一位50多岁的男性，很满意将安视为竞争对手的一个更年轻的女员工。 她不断批评她（即Ann）的工作，但却未就如何改进工作给出任何建议。数周过去了， 安尽最大的努力去让这位新主管满意，但是后者对她的态度没有任何改变。最终，安 的心情也变得一片灰暗，于是她开始寻求新的出路。她申请到公司在西雅图的分支机 构工作，这一请求被老板拦下。她认为是时候采取行动了。她满腔热情地开始寻找工 作，最后从公司的竞争对手那里获取得到了一份工作机会。正当她准备宣布在一个月 后辞职时，她被老板叫到了办公室，然后被突然告知自己被解雇了。这是个极大的侮 辱。诚然，她与老板的关系很差，但是她依然认真地履行她的职责。再三思考之后， 她决定不去抱怨她的主管决定的不公。不久，新单位的入职通知书到了，安头也不回地离开了。

Is evolution predictable, or was it heavily shaped by random events? Biologists have argued over this question for decades. Some suggest that if we replayed the history of life on our planet, the resulting species would be different. Opponents counter that life is largely deterministic.Recently, researchers have begun to ask the same questions about rocks. Some 5, 000 minerals have been found on Earth. But minerals didn’t simply appear all at once when the Earth formed. They materialized over time, each crystal arising in response to the conditions of the particular epoch in which it formed. Minerals evolved — in some cases, in response to life. So are today’s minerals a predictable consequence of the planet’s chemical makeup, or the result of chance events? What if we were to spot another earth-like planet in the cosmos -- would we expect its gemstones to match ours, or would they shine in ways never seen before?Robert Hazen, a mineral physicist at the Carnegie Institution of Washington, and his colleagues are publishing a series of papers this year that reveal broad insights into whether geology is a matter of fate. Minerals on Earth may indeed have been guided by deterministic rules that could apply to other worlds as well, they found. But our planet is rife with extremely rare minerals, which suggests that chance occurrences also play a significant part. In addition, if we found an earth-like twin elsewhere in the universe, many common minerals would likely be the same ~ but that planet would probably also hold many minerals unlike any existing here.The findings aren’t just a matter of curiosity. Some minerals may have helped early organisms emerge. And understanding which minerals could have formed on earth-like planets may help scientists better predict which worlds are likeliest to harbor life. Conversely, some minerals arise only in the presence of organisms. So finding patterns in Earth’s mineral distribution could help scientists identify a mineralogical signature for life, and then search for it on other planetsTraditionally, mineralogy has been dominated by analysis of the structures and formation of individual minerals. But in a 2008 study Hazen and his colleagues took a more historical view. The researchers assessed earth’s known minerals and tried to establish when the conditions were right for their formation. The team concluded that about two-thirds of earth’s minerals would not have emerged until life was present. For example, early microorganisms seeded the atmosphere with oxygen, which interacted with existing minerals to yield new ones. Hazen points out that this so-called Great Oxygenation Event had a revolutionary impact, opening the door to thousands of new minerals.Hazen and collaborators then set out to investigate the role that chance played in mineral formation. First, they studied the relation between mineral diversity and the abundance of individual elements in earth’s crust. They found that the more abundant the element, the more minerals it formed. They then performed the same exercise with minerals from the moon. A similar relationship held, even though the number of known minerals there is much smaller. This common trend suggested an element of determinism: Given starting chemical conditions, one could predict, to a certain extent, which minerals would form.The team did find outliers, however, Hazen’s team believes there are chemical reasons for the discrepancies. Their results still support the idea of determinism, said co-author Edward Grew, a petrologist at the University of Maine, because “we can explain why they’re not obeying the rules.” Peter Heaney, a mineralogist at Pennsylvania State University, said that the reasons given for the outliers make sense. “What is important is that Hazen is making us think about mineral diversification in a new way,” said Heaney, who was not involved in the study.Haran’s team also found evidence for the role of chance. The researchers used a crowd-sourced database to retrieve more than 650,000 mineral ostentations at specific locations around th

s="" loss="" in="" the="" same="" decades="" was="" 3.7="" boys.Boys are also more than two-thirds more likely than girls to be bom prematurely before the 37th week of pregnancy. And, despite advances in public health, boys in the 1990s faced a 30 percent higher chance of death by their first birthday than girls; in contrast, back in the 1750s, they were only 10 per cent more likely than girls to die so early in their lives.Once they make it to childhood, boys face other challenges. They are more prone to a range of neurological disorders. Autism 自闭症 is notoriously higher among boys than girls: now nearly five times more likely, as tallied by the US Centers for Disease Control and Prevention. They are more susceptible than girls to damage from very low-level exposure to lead. Yet another problem: boys suffer from asthma at higher rates. There's also a stronger link between air pollution and autism in boys.Why do boys face such a burden of physical challenges? The answer is that the male’s problems start in the womb: from his more complicated fetal development, to his genetic makeup, to how his hormones work. The nine-month transformation from a few cells to an infant is a time of great vulnerability. Many chronic illnesses are seeded in the womb. In our species, the female is the default gender, the basic simpler model: Humans start out in the womb with female features (that is why males have nipples). The complicated transformation in the womb from female to male exposes the male to a journey packed with special perils. When the first blast of testosterone 睾酮 from the Y gene comes along at about the eighth week, the unisex brain has to morph into a male brain, killing off some cells in the communication centers and growing more cells in the sex and aggression centers. The simpler female reproductive system has to turn into the more complex male reproductive tract, developing tissues such as the testis and prostate 前列腺.Further, it takes a greater number of cell divisions to make a male; with each comes the greater risk of an error as well as the greater vulnerability to a hit from pollutants.On top of that challenge, the human male’s XY chromosome 染色体 combination is simply more vulnerable. The two XXs in the female version of our species offer some protection: In disorders where one X chromosome has a genetic defect, the female’s healthy backup chromosome can take over. But with his single X chromosome, the male lacks a healthy copy of the gene to fall back on. The X chromosome, which never shrank, is also a larger chromosome “with far more genetic information than the Y chromosome，’’ finds Irva Hertz-Piciotto, a University of California at Davis autism researcher, “so there may be some inherent loss of key proteins for brain development or repair mechanisms in boys.” This is a clue to the higher autism rate among boys, she asserts.Females also have a stronger immune system because they are packed with estrogen 雌激素，a hormone that counteracts the antioxidant process. “Estrogen protects the brain,” explains Theodore Slotkin, professor of neurobiology at Duke University's School of Medicine. “It repairs and replaces, even after neural injury,” Low estrogen even leaves boys more sensitive to head injuries. The male brain “is simply a more fragile apparatus, more sensitive to almost all brain insults,” says lead poisoning expert Herbert Needleman.It is the high levels of testosterone in the womb at critical times in gestation, according to British psychopathologist Simon Baron-Cohen, that are responsible for what he calls “the extreme male brain” -- the kind exhibited by autistic boys - low in empathy, high in systematizing. And in fact US researchers in recent decades have found unusually low estrogen and high testosterone levels among boys with autism.If the balance of hormones is out of whack in males, what made that happen? Researchers are coming up with some clues. In the New York City neighborhoods near Columbia University's Center for Children’s Environmental Health, families for years routinely sprayed their apartment

s="" been="" a="" long="" day.Would you （5）spending a quiet evening at home （6）?A: No, not really. I’ll phone Silvia and tell her that we’ll go out with her other （7） night.'>

A: Silvia has suggested（1） to the cinema this evening. How do you feel （2）that?B: To tell the（3） , I’m not really in the（4） to go out again. It's been a long day.Would you （5）spending a quiet evening at home （6）?A: No, not really. I’ll phone Silvia and tell her that we’ll go out with her other （7） night.

This afternoon we’re meeting with（1） E.U. environmental official and some Australian specialists to talk about how to（2） groundwater pollution in the Tianjin area.