1 . Mars is truly a fascinating planet for those of us here on Earth.
The Red Planet has the largest volcano in the solar system-Olympus Mons.
Mars also has an atmosphere, but it is very thin and made up mostly of carbon dioxide. Because of its thin atmosphere and greater distance from the Sun, Mars is much colder than Earth.
Scientists believe that studying Mars can help answer some of the key questions about our planet Earth, or even the universe.
| A.It is roughly 27 kilometres high. |
| B.Missions to Mars have never been easy. |
| C.Mars, however, today has no active volcanoes. |
| D.The temperature at the planet’s surface varies widely. |
| E.However, Mars does have weather, with clouds and winds. |
| F.China will continue to explore the mysteries of the universe. |
| G.It is one of the few planets that we can see with our own eyes. |
2 . Two high school students have identified four new planets in distant space about 200-light-years from Earth, making them “the youngest astronomers” to make such a discovery.
Kartik Pingle, 16, and Jasmine Wright. 18, who both attend schools in Massachusetts, participated in the Student Research Mentoring Program (SRMP). With the help of Tansu Daylan, an MIT doctor for Astrophysics and Space Research, the students studied and analyzed data from the Transiting Exoplanct Survey Satellite (TESS). Together they focused on Tess Object of Interest (TOI) 1233, a nearby, bright sun-like star and here they found four planets rotating(旋转)around the star. “We were looking to see changes in light over time,” Pingle explained, “the idea is that if the planet transits the star, or passes in front of it, it would periodically cover up the star and decrease its brightness.”
While studying 1233, Pingle and Wright had at least hoped to find one planet but were overwhelmed with joy when a total of four were spotted. “I was very excited and very shocked.” Wright said. “We knew this was the goal of Daylan’s research, but to actually find a multi-planetary system, and be part of the discovering team, was really cool.” Three of the newly discovered planets are considered as “sub-Neptunes”, which are gaseous, but smaller than the Neptune that lives in our solar system. While observing the planets, the team determined each one completes their orbit around 1233 every six to 19.5 days. However, the fourth planet is called a “super-Earth” for its large size and rockiness this one orbits around the star in just under four days.
“We have long been studying planets beyond our solar system and with multi-planetary systems, the two young students are kind of hitting the jackpot. They are really blessed.” Daylan said. “The planets originated from the same disk of matter around the same star, but they ended up being different planets with different atmospheres and different climates due to their different orbits. So, we would like to understand the basic processes of planet formation and evolution using this planetary system.”
Daylan added that it was a “win-win” to work with Pingle and Wright on the study. “As a researcher, I really enjoy interacting with young brains that are open to experimentation and learning and have slightest bias(偏见).”he said, “I also think it is very beneficial to high school students, since they get exposure to cutting-edge research, and this prepares them quickly for a research career.”
1. How did the two students identify the four planets?| A.By helping professor Tansu Daylan with the data. |
| B.By analyzing the change of brightness of star 1233. |
| C.By studying Neptune that lives in our solar system. |
| D.By interacting with other young talented brains. |
| A.It was made by two high school students. |
| B.It was made with an innovative approach. |
| C.It was meant to be made by Tansu Daylan. |
| D.It found the largest number of planets at a time. |
| A.Making a discovery difficultly. | B.Achieving the goal easily. |
| C.Succeeding in something luckily. | D.Performing a task carefully. |
| A.It allows the scientists to work with young people without prejudice. |
| B.It equips future astronomers with better researching abilities. |
| C.It provides more perspectives and thus boosts more discoveries. |
| D.It arouses students’ interest in exploring the unknown universe. |
3 . If Mars were the popular kid in school, Venus (金星) would be the unwelcome one sitting in the corner, largely ignored. Venus has nearly the same mass and size as Earth, but being closer to the sun, it gets nearly twice as much heat from the sun.
However, instead of having a climate that is just a warmer version of Earth’s, Venus’s surface and atmosphere are unbearable: clouds of sulphuric acid (硫酸) blanket the planet, while at ground level, it is hot enough to melt lead. Despite this, there is now a sign that Venus may harbour life. Jane Greaves at Cardiff University, UK, and her colleagues recently detected (发现) phosphine (磷化氢) in Venus’s atmosphere, with one potential explanation that it is the by-product of biology. That is because the only way this gas is made on Earth is in laboratories or by microbes (微生物). Though this doesn’t mean it was produced by life on Venus, attempts to find non-biological explanations for its presence have so far failed. Our best way of confirming or rejecting the possibility of life on Venus is to go and have a proper look. While Mars has been the focus of interplanetary (行星间的) exploration efforts lately, the phosphine discovery lets people look at Venus in a new light. As NASA administrator Jim Bridenstine tweeted: “It’s time to prioritize Venus.”
In the months and years to come, computer simulations(模拟) will be used to further study the possible chemistries of the atmosphere on Venus. More laboratory experiments will be conducted to try to identify other ways the phosphine there could be produced. However, there is no guarantee that these efforts will reveal the true nature of this substance on Venus. A newly-proposed strategy is to directly sample the atmosphere and surface of Venus. By doing so, we would be able to take direct measurements of phosphine.
The discovery of phosphine in Venus’s atmosphere is a great accomplishment. The scientific efforts may be just what we need to finally refocus on this neglected world. Possibly, the quiet kid in the corner may get the last laugh
1. Which description about Venus is NOT true?| A.It has the unbearable surface and atmosphere. |
| B.It has nearly the same mass as Earth. |
| C.It is almost as large as Earth. |
| D.It has a warmer Earth-like climate. |
| A.This kind of gas is very common. | B.There might exist signs of life. |
| C.Many products can be made with it. | D.Experiments were once conducted there. |
| A.The necessity to analyse phosphine. |
| B.The power of computer simulations |
| C.The importance of observations. |
| D.The approaches to exploring phosphine |
| A.Casual | B.Doubtful. | C.Supportive. | D.Unclear. |
4 . The US space agency NASA has revealed an astonishing picture revealing new secrets of the Earth’s home galaxy (星系), the Milky Way. The sun is just one of hundreds of billions of stars that form the huge shape of our galaxy. Our solar system sits in an outlying region but the new image focuses on the centre of the Milky Way, a “noisy” area because of all the crowded stars. Light from this region takes about 26,000 years to reach Earth. For comparison, light takes just eight minutes to reach us from the sun.
The researchers use the data collected by two telescopes that see the sky in ways that are very different from the visible light our eyes can see to form the new image. Most of the data comes from 370 different pictures taken over the past 20 years by NASA’s Chandra X Observatory. This satellite telescope detects X-rays out in space. X-rays are a from of radiation that is sent out when violent events heat matter to temperatures of millions of degrees. Other data comes from the MeerKAT telescope in South Africa, which can detect radio waves from space. These waves have much less energy than X-rays. They are usually produced by cooler material, such as huge clouds of gas between the stars.
The brightest sources include neutron stars which are the cores of huge stars that ran out of fuel and collapsed to city-sized balls of super hot matter. Many neutron stars and black holes jet out gases that appear in the picture as purple streaks (斑纹). Powerful magnetic fields in the area cause the jets to bend as they get further from their source. Astronomer Dr Daniel Wang, who has worked on the image over the past year, said the new picture described “a violent or energetic ecosystem”.
1. What can be learned about the Milky Way?| A.The center of it remains unknown. |
| B.The sun isn’t located in the center of it. |
| C.Its center is very peaceful. |
| D.Its center features fewer stars. |
| A.The collection of space data. |
| B.The function of the MeerKAT telescope. |
| C.The differences of space waves. |
| D.The formation of the new image. |
| A.They will absorb surrounding materials. |
| B.They will form super big matter. |
| C.They get bent if away from their source. |
| D.They are likely to explode when superheated. |
| A.Our galaxy’s violent heart | B.An attempt to travel in outer space |
| C.Radio waves from outer space | D.Stars’ purple streaks |
5 . You look up at the sky on a clear and dark night, you’ll see more stars than your eyes can count. Most of these stars have planets, similar to our own, orbiting them. With so many celestial bodies floating out in space, you can’t help but question whether other forms of life exist in the universe. And if that’s the case, is it possible to contact them?
Science is still somewhat divided on this issue. Currently, no evidence exists to suggest that intelligent life exists elsewhere in the universe. Yet with an estimated one trillion planets in our galaxy alone, it seems highly likely that Earthlings aren’t the only intelligent creatures out there. Some claim that life can only develop under perfect circumstances, and Earth is perhaps the only example of this. Other scientists object to this claim, and point out that even on Earth, life can find a way under the most extreme circumstances.
Some people believe that aliens have already visited our planet, but this information is being kept secret by governments. The most famous incident of this kind occurred in Roswell, New Mexico in 1947. On that date, many residents reported seeing an unusual flying disc streak through the sky, before it crashed in a field. When the military heard about the crash, they quickly sealed off the area. A few hours later, the army base announced that it had recovered a flying disk. Shortly after, this statement was retracted and it was said that it was a weather balloon that crashed. However, years later one local mortician even claimed that the military had him secretly perform an autopsy on a dead alien body.
Others believe that there certainly are other life forms out there, but the distance between us is too great. Even if we could somehow create a spaceship that travels at the speed of light, it would still probably take several lifetimes to reach them. Then again, we might never have to do this if aliens reach us first.
1. Why do some scientists think there is life on other planets?| A.Because an unusual flying disc was ever witnessed. |
| B.Because life exists despite extreme conditions as those on the Earth do. |
| C.Because the government’s statement seemed suspicious. |
| D.Because there are a great number of planets in the universe. |
| A.Examined again to guarantee the correctness. | B.Emphasized again to persuade people. |
| C.Formally taken back what has been said. | D.Seriously criticized due to poor evidence |
| A.Are we alone in the universe? | B.Is it possible to contact aliens? |
| C.Intelligent life in the universe. | D.Planets floating out in space. |
| A.Objective. | B.Humorous. | C.Cautious. | D.Anxious. |
6 . Like a phoenix (凤凰), some stars may burst to life covered in “ash,” rising from the remains of stars that had previously passed on.
Two fireballs covered in carbon and oxygen, ashy byproducts of helium fusion (氦聚变), belong to a new class of stars, researchers report in the March Monthly Notices. Though these burning objects are not the first stars found covered in carbon and oxygen, they are the first discovered to have helium-burning cores.
“That merger (并合) tells you the star must have evolved differently,” says study author Nicole Reindl.
The stars may have formed from the merger of two white dwarfs (白矮星), the remaining hearts of stars that exhausted their fuel, Reindl further explains. One of the two was rich in helium, while the other contained lots of carbon and oxygen. These two white dwarfs had already been orbiting one another, but gradually drew together. Eventually the helium-rich white dwarf “ate” its partner, leaving carbon and oxygen all over its surface, just as a messy child might get food all over their face.
Such a merger would have produced a star covered in carbon and oxygen to burn nuclear fusion in its core again, says Tiara Battich, a German astrophysicist.
To test this idea, Battich copied the evolution, death and eventual merger of two stars on his computer and simulated (模拟) the process. He found that putting together a carbon-and-oxygen-rich white dwarf and a more massive helium one could explain the compositions of the two stars observed by Reindl and her colleagues.
“But this should happen very rarely,” Battich says. In most cases the opposite should occur, because carbon-oxygen white dwarfs are usually the more massive ones. For the rarer case to occur, two stars slightly more massive than the sun must have formed at just the right distance and the right time.
"The origins story Battich proposes demands a very specific and unusual set of circumstances, " says Simon Blouin, a Canadian astrophysicist. “But in the end, it makes sense.”
1. What’s the newest discovery of the merger of two stars?| A.It produces a mass of helium ash. |
| B.It possesses a helium-burning core. |
| C.It is covered in carbon and oxygen. |
| D.It makes an oxygen atmosphere for life. |
| A.By co-working with Rcindl’s team. |
| B.By making astronomic observations. |
| C.By building models on his computer. |
| D.By testing the two stars’ compositions. |
| A.the carbon-oxygen white dwarf “ate” the helium one |
| B.the helium white dwarf “ate” the carbon-oxygen one |
| C.helium white dwarfs are usually the more massive ones |
| D.carbon-oxygen white dwarfs are usually the more massive ones |
| A.The formation of stars makes sense. |
| B.The burning of stars brings them to life. |
| C.Stars inspire scientists to reflect on the universe. |
| D.Star mergers can unfold in more than one way. |
7 . A long time ago in a galaxy far far away, there was a large and magnificently brilliant star that shone across the young expanding universe. The light from that blue star travelled through space for billions of years, and then one day a few thin beams crashed into a polished mirror-the light bucket of the Hubble Space Telescope.
In a report published Wednesday in the journal Nature, a team of astronomers asserts that this is the most distant individual star ever seen. They describe it as 50 to 100 times more massive than our sun, and roughly 1 million times brighter, with its starlight having travelled 12.9 billion years to reach the telescope.
The lead author on the report, Brian Welch, gave the star a name: Earendel, meaning “morning stars”. “Earendel was found in a young galaxy known as the Sunrise Arc, and ‘morning stars’ seemed appropriate,” Welch said.
“This is one of the major discoveries of the Hubble Space Telescope in its 32 years of observation, ” said Rogier Windhorst, a co-author of the report. In recent decades, astronomers have seen galaxies at that distance, and even farther away, but galaxies are collections of billions of stars and the very distant ones have typically been nothing more than smudges of light.
Despite its mass and brilliance, Earendel’s discovery would not have been possible were it not for the cosmic alignment. Between Hubble and the star lies a galaxy cluster, WHL0137-08,which is so huge that its mass wraps the fabric of space, creating a power of natural magnifying (放大) glass that magnifies the light form objects behind it, a phenomenon known as gravitational lensing (引力透镜效应). Earendel sits on or close to that space ripple, causing it to “pop out” from the general glow of its galaxy because the phenomenon magnified its brightness at least a thousand fold.
In interviews this week, several scientists who are not part of the Earendel team praised the discovery, noting that further observations could firm up the claim and potentially provide insights into the early evolution of stars.
1. How does the first paragraph develop?| A.By listing several figures. | B.By making comparisons. |
| C.By describing the process. | D.By analyzing cause and effect. |
| A.The star Earendel is quite different from the Sun. |
| B.Brian Welch made the discovery of the Earendel alone. |
| C.Both Earendel and the galaxy Sunrise Arc are very old. |
| D.Astronomers have never discovered galaxies that far. |
| A.Because the star is incredibly huge in its mass. |
| B.Because the star shines brightly enough to be detected. |
| C.Because the brightness of the star is enhanced enormously. |
| D.Because the Hubble space telescope is properly placed in space. |
| A.Critical. | B.Indifferent. |
| C.Doubtful. | D.Appreciative. |
8 . It took humans thousands of years to understand our own planet, and centuries
Up to the present time, astronomers have
Among all these, scientists are eager to find a clue of the
| A.explore | B.separate | C.forget | D.defend |
| A.revised | B.discovered | C.saved | D.created |
| A.travelled | B.damaged | C.recognized | D.ignored |
| A.slowly | B.easily | C.wrongly | D.rapidly |
| A.Removing | B.Circling | C.Lighting | D.Showing |
| A.stars | B.moons | C.planets | D.satellites |
| A.type | B.distance | C.power | D.size |
| A.authorities | B.species | C.systems | D.facilities |
| A.familiar | B.previous | C.unknown | D.distant |
| A.hide | B.discover | C.injure | D.support |
| A.luckily | B.instantly | C.probably | D.officially |
| A.small | B.bright | C.blue | D.clear |
| A.And | B.Yet | C.So | D.Thus |
| A.limits | B.ends | C.opposites | D.beginnings |
| A.examples | B.designs | C.means | D.signs |
9 . Unusually bright light in the sky that appeared suddenly last June has got astronomers in great excitement, After months of study, they still aren’t sure what the object — university referred to as the “Cow” — is, whatever it is, says astronomer Lilian Rivera Sandoval or Texas Tech University in Lubbock, “It’s super strange and we are obsessed with its study.”
The Cow first appeared in telescope observations on 16 June 2018, in what turned out to be small galaxy about 200 million light years away. “When we saw that we thought, let’s get on this.” says Daniel Perley, an astronomer at Liverpool John Moore University.
The early observations confirmed the Caw was truly strange. It didn’t show the obvious changes in its light output that an exploding star would make. Sandoval ways as soon as she and colleagues Anew the Cow was truly distant, they requested time on NASA’s Neil Gehrels Swift Observatory to see what the Cow was doing in X-rays. Although the X-ray brightness varied over the early weeks, “the spectrum didn’t change, which is very unusual,” she notes. After 3 weeks, the X-ray signal began to vary more wildly while also dropping off in brightness.
Many astronomers agree that the long and steady duration of the event means that it was powered after an initial explosion by some form of central engine. But what that engine may be is also far from clear. Some argue that it could be a very unusual star whose central part has collapsed inward after it exploded. Others say it is a tidal disruption event — a star being torn apart by a black hole. But that usually requires the supermassive black hole in the center of a galaxy, and the Cow is situated in its galaxy’s arm. So, some say, il could be a tidal disruption event generated by an intermediate mass black hole, although evidence for the existence of such smaller black holes remains controversial. “All explanations have problems,” Sandoval says, “I hope there are more Cows.”
1. What is astronomers’ main concern about the Cow?| A.When it appears. | B.How it forms. |
| C.What it is. | D.Where it is from. |
| A.The Cow is a not typical exploding star in the galaxy. |
| B.The changes of X-rays brightness proved the Cow unique. |
| C.The Cow is not far from the Earth and easy to study. |
| D.The X-ray test helped find accurate features of the Cow. |
| A.The research results help little. | B.More Cows will appear. |
| C.Extra attention should be paid to the Cow. | D.More information is needed. |
| A.Astronomers conducted an interesting experiment at NASA. |
| B.The Cow has aroused astronomers’ passion in its research. |
| C.There exists a wide range of changes in the galaxies. |
| D.The discovery of the Cow is a great achievement. |
1. What will happen in 2022?
| A.A new space lab will be built |
| B.The first space hotel will open |
| C.Astronauts will live in the space hotel |
| A.Two | B.Four | C.Six |
| A.Cook food | B.Watch movies | C.Have a video chat |
| A.Expensive | B.Dangerous | C.Relaxing |
