- (+84) 383 096 717
- [email protected]
- 63 Vũ Ngọc Phan, Hà Nội
Format | |
---|---|
Skill | |
Source | |
Topic | |
Test Type | Matching Heading, Matching Information, Multiple choise (1 answer), note/form/sentence completion, T/F/NG |
READING PASSAGE 1
You should spend about 20 minutes on Questions 1-14 which are based on Reading Passage 1 below.
Timekeeper: Invention of Marine Chronometer
A
Up to the middle of the 18th century, the navigators were still unable to exactly identify the position at sea, so they might face a great number of risks such as the shipwreck or running out of supplies before arriving at the destination. Knowing one’s position on the earth requires two simple but essential coordinates, one of which is the longitude.
B
The longitude is a term that can be used to measure the distance that one has covered from one’s home to another place around the world without the limitations of naturally occurring baseline like the equator. To determine longitude, navigators had no choice but to measure the angle with the naval sextant between Moon centre and a specific star— lunar distance—along with the height of both heavenly bodies. Together with the nautical almanac, Greenwich Mean Time (GMT) was determined, which could be adopted to calculate longitude because one hour in GMT means 15-degree longitude. Unfortunately, this approach laid great reliance on the weather conditions, which brought great inconvenience to the crew members. Therefore, another method was proposed, that is, the time difference between the home time and the local time served for the measurement. Theoretically, knowing the longitude position was quite simple, even for the people in the middle of the sea with no land in sight. The key element for calculating the distance travelled was to know, at the very moment, the accurate home time. But the greatest problem is: how can a sailor know the home time at sea?
C
The simple and again obvious answer is that one takes an accurate clock with him, which he sets to the home time before leaving. A comparison with the local time (easily identified by checking the position of the Sun) would indicate the time difference between the home time and the local time, and thus the distance from home was obtained. The truth was that nobody in the 18th century had ever managed to create a clock that could endure the violent shaking of a ship and the fluctuating temperature while still maintaining the accuracy of time for navigation.
D
After 1714, as an attempt to find a solution to the problem, the British government offered a tremendous amount of £20,000, which were to be managed by the magnificently named ‘Board of Longitude’. If timekeeper was the answer (and there could be other proposed solutions, since the money wasn’t only offered for timekeeper), then the error of the required timekeeping for achieving this goal needed to be within 2.8 seconds a day, which was considered impossible for any clock or watch at sea, even when they were in their finest conditions.
E
This award, worth about £2 million today, inspired the self-taught Yorkshire carpenter John Harrison to attempt a design for a practical marine clock. In the later stage of his early career, he worked alongside his younger brother James. The first big project of theirs was to build a turret clock for the stables at Brockelsby Park, which was revolutionary because it required no lubrication. Harrison designed a marine clock in 1730, and he travelled to London in seek of financial aid. He explained his ideas to Edmond Halley, the Astronomer Royal, who then introduced him to George Graham, Britain’s first-class clockmaker. Graham provided him with financial aid for his early-stage work on sea clocks. It took Harrison five years to build Harrison Number One or HI. Later, he sought the improvement from alternate design and produced H4 with the giant clock appearance. Remarkable as it was, the Board of Longitude wouldn’t grant him the prize for some time until it was adequately satisfied.
F
Harrison had a principal contestant for the tempting prize at that time, an English mathematician called John Hadley, who developed sextant. The sextant is the tool that people adopt to measure angles, such as the one between the Sun and the horizon, for a calculation of the location of ships or planes. In addition, his invention is significant since it can help determine longitude.
G
Most chronometer forerunners of that particular generation were English, but that doesn’t mean every achievement was made by them. One wonderful figure in the history is the Lancastrian Thomas Earnshaw, who created the ultimate form of chronometer escapement—the spring detent escapement—and made the final decision on format and productions system for the marine chronometer, which turns it into a genuine modem commercial product, as well as a safe and pragmatic way of navigation at sea over the next century and half.
READING PASSAGE 2
You should spend about 20 minutes on Questions 15-27 which are based on Reading Passage 2 below.
The Evolutionary Mystery: Crocodile Survives
A
Even though crocodiles have existed for 200 million years, they’re anything but primitive. As crocodiles’ ancestors, crocodilia came to adapt to an aquatic lifestyle. When most of the other contemporary reptiles went extinct, crocodiles were able to make it because their bodies changed and they adapted better to the climate. They witnessed the rise and fall of the dinosaurs, which once ruled the planet, and even the 65 million years of alleged mammalian dominance didn’t wipe them off. Nowadays, the crocodiles and alligators are not that different from their prehistoric ancestors, which proves that they were (and still are) incredibly adaptive.
B
The first crocodile-like ancestors came into existence approximately 230 million years ago, and they had many of the features which make crocodiles natural and perfect stealth hunters: streamlined body, long tail, protective armour and long jaws. They are bom with four short, webbed legs, but this does not mean that their capacity to move on the ground shall ever be underestimated. When they move, they are so fast that you won’t even have any chance to try making the same mistake again by getting too close, especially when they’re hunting.
C
Like other reptiles, crocodiles are poikilothermal animals (commonly known as coldblooded, whose body temperature changes with that of the surroundings) and consequently, require exposure to sunlight regularly to raise body temperature. When it is too hot, they would rather stay in water or shade. Compared with mammals and birds, crocodiles have a slower metabolism, which makes them less vulnerable to food shortage. In the most extreme case, a crocodile can slow its metabolism down even further, to the point that it would survive without food for a whole year, enabling them to outlive mammals in relatively volatile environments.
D
Crocodiles have a highly efficient way to prey catching. The prey rarely realises there might be a crocodile under the water because the crocodile makes a move without any noise or great vibration when spotting its prey. It only keeps its eyes above the water level. As soon as it feels close enough to the victim, it jerks out of the water with its wide open jaws. Crocodiles are successful because they are capable of switching feeding methods. It chases after fish and snatches birds at the water surface, hides in the waterside bushes in anticipation of a gazelle, and when the chance to ambush presents itself, the crocodile dashes forward, knocks the animal out with its powerful tail and then drags the prey into the water to drown.
E
In many crocodilian habitats, the hot season brings drought that dries up their hunting grounds, leaving it harder for them to regulate body temperatures. This actually allowed reptiles to rule. For instance, many crocodiles can protect themselves by digging holes and covering themselves in mud, waiting for months without consuming any food or water until the rains finally return. They transform into a quiescent state called aestivation.
F
The majority of crocodilian is considered to go. into aestivation during the dry season. In a six-year study by Kennett and Christian, the King Crocodiles, a species of Australian freshwater crocodiles, spent nearly four months a year underground without access to water resources. Doubly labelled water was applied to detect field metabolic rates and water flux, and during some years, plasma fluid samples were taken once a month to keep track of the effects of aestivation regarding the accumulation of nitrogenous wastes and electrolyte concentrations.
G
The study discovered that the crocodiles’ metabolic engines function slowly, creating waste and exhausting water and fat reserves. Waste is stored in the urine, becoming more and more concentrated. Nevertheless, the concentration of waste products in blood doesn’t fluctuate much, allowing the crocodiles to carry on their normal functions. Besides, even though the crocodiles lost water reserves and body weight when underground, the losses were proportional; upon emerging, the aestivating animals had no dehydration and displayed no other harmful effects such as a slowed-down growth rate. The two researchers reckon that this capacity of crocodiles to get themselves through the harsh times and the long starvation periods is sure to be the answer to the crocodilian line’s survival throughout history.
READING PASSAGE 3
You should spend about 20 minutes on Questions 28-40 which are based on Reading Passage 3 below.
Company Innovation
A
In a shabby office in downtown Manhattan, a group of 30 AI (artificial intelligence) programmers from Umagic are attempting to mimic the brains of a famous sexologist, a celebrated dietitian, a popular fitness coach and a bunch of other specialists, Umagic Systems is an up-and-coming firm, which sets up websites that enable their clients to seek advice from the virtual versions of those figures. The users put in all the information regarding themselves and their objectives; then it’s Umagic’s job to give advice, that a star expert would give. Even though the neuroses of American consumers have always been a marketing focus, the future of Umagic is difficult to predict (who knows what it’ll be like in ten years? Asking a computer about your sex life might be either normal or crazy). However, companies such, as Umagic1 are starting .to intimidate major American firms, because these young companies regard the half-crazy ‘creative’ ideas as the portal lo their triumph m the future.
B
Innovation has established itself as the catchword of American business management Enterprises have realised that they are running out of things that can be outsourced or re-engineered (worryingly, by their competitors too) Winners of today’s American business tend to be companies with innovative powers such as Dell, Amazon and Wal-Mart, which have come up with concepts or goods that have reshaped their industries.
C
According to a new book by two consultants from Arthur D. Little, during the last 15 years, the top 20% of firms in Fortune magazine’s annual innovation survey have attained twice as much the shareholder returns as their peers. The desperate search for new ideas is the hormone for a large part of today’s merger boom. The same goes for the money spent on licensing and purchasing others’ intellectual property. Based on the statistics from Pasadena-based Patent & Licence Exchange, trade volume in intangible assets in America has gone up from $15 billion in 1990 to $100 billion in 1998, with small firms and individuals taking up an increasing share of the rewards.
D
And that terrifies big companies: it appears that innovation works incompatible with them. Some major famous companies that are always known for ‘innovative ideas’, such as 3M, Procter & Gamble, and Rubbermaid, have recently had dry spells. Peter Chernin, who runs the Fox TV and film empire for News Corporation, points out that ‘In the management of creativity, size is your enemy.’ It’s impossible for someone who’s managing 20 movies to be as involved as someone doing 5. Therefore, he has tried to divide the studio into smaller parts, disregarding the risk of higher expenses.
E
Nowadays, ideas are more likely to prosper outside big companies. In the old days, when a brilliant scientist came up with an idea and wanted to make money out of it, he would take it to a big company first. But now, with all these cheap venture capital around, he would probably want to commercialise it by himself. So far, Umagic has already raised $5m and is on its way to another $25m. Even in the case of capital-intensive businesses like pharmaceuticals, entrepreneurs have the option to conduct early-stage research and sell out to the big firms when they’re faced with costly, risky clinical trials. Approximately 1/3 of drug firms’ total revenue is now from licensed-in technology.
F
Some of the major enterprises such as General Electric and Cisco have been impressively triumphant when it comes to snatching and incorporating small companies’ scores. However, other grants are concerned about the money they have to spend and the way to keep those geniuses who generated the idea. It is the dream of everyone to develop more ideas within their organisations Procter & Gamble is currently switching their entire business focus from countries to products; one of the goals is to get the whole company to accept the innovations. In other places, the craving for innovation has caused a frenzy lor intrapreneurship’ transferring power and establishing internal idea-workshops and tracking inventory so that the talents will stay.
G
Some people don’t believe that this kind of restructuring is sufficient. Clayton Christensen argues in new book that big firms’ many advantages, such as taking care of their existing customers, can get in the way of innovative behaviour that is necessary for handling disruptive technologies That’s why there’s been the trend of cannibalisation, which brings about businesses that will confront and jeopardise the existing ones. For example, Bank One has set up Wingspan, which is an online bank that in fact compete, with its actual branches.
H
There’s no denying that innovation is a big deal. However, do major firms have to be this pessimistic? According to a recent survey of the to 50 innovations in America by Industry Week, ide as are equally likely to come from both big and small companies. Big companies can adopt new ideas when they are mature enough and the risks and rewards have become more quantifiable.
Your email address:
Your name:
© CoHuyenIELTS.com | 2022 | All Rights Reserved
Cô Huyền sẽ liên hệ trực tiếp với bạn qua email hoặc điện thoại trong 1-2 ngày tới để trao đổi cụ thể hơn về việc học.
Hoặc bạn cũng có thể chủ động liên hệ với cô giáo theo thông tin dưới đây để được xếp lớp sớm nhất.
Email: [email protected]
Xin cám ơn.
Để đăng ký học IELTS lớp cô Huyền, vui lòng điền form dưới đây để được tư vấn. Hoặc gọi điện trực tiếp cho cô giáo theo số +84.0383.096.717 để giữ chỗ.
Để đăng ký nhanh nhất, vui lòng liên hệ trực tiếp cho cô Huyền theo số:
Email: [email protected]
Địa chỉ: 63 Vũ Ngọc Phan, Láng Hạ, Đống Đa, Hà Nội