太空的英语
universe
一、读音
英 [ˈjuːnɪvɜːs] 美 [ˈjuːnɪvɜːrs]
二、释义
n.宇宙;天地万物;万象;(已知宇宙以外的)宇宙;(某种)经验体系
三、语法-记忆技巧:
uni 一个 + vers 转 + e → 统一旋转 → 宇宙
四、双语例句:
Einstein'
爱因斯坦的方程式表明宇宙正在膨胀。
,
优秀的作家从他们眼中的世界汲取体验,然后在纸上重塑自己的天地。
,thinnest,cleverest,.
我的朋友说我是全天下最酷、最瘦、最聪明、最幽默的记者。
(1)太空的英语扩展阅读:
universe的相关短语:
1、Stargate Universe星际之门宇宙 ; 星际之门 ; 星际之门·宇宙 ; 星际之门太空
2、observable universe可观测宇宙 ; 可观察宇宙 ; 可宇宙
3、Parallel Universe平行世界 ; 平行宇宙 ; 平行空间 ; 唱片名
4、universe sandbox宇宙沙盘 ; 宇宙模拟沙盘 ; 宇宙沙盒 ; 宇宙模拟沙盘二次方
5、StarCraft Universe星际宇宙 ; 星际争霸宇宙 ; 星际争霸系列小说 ; 星际世界
6、quantum universe量子宇宙
7、einstein universe爱因斯坦宇宙
8、Geocentric Universe地心说 ; 地心宇宙模型 ; 宇宙地心
9、Diablo Universe暗黑破坏神系列小说
② 在太空中用英语怎么说
应该是in the space哦,in space是一个短语表示:片刻就, 一会儿就的意思。所以啊还是应该用in the space 比较合适:)互相交流啦
③ 太空知识(英语)
space
spaceship
star
astronaut
我刚五年级,就知道这些,希望能帮助到你!
④ 太空用英文怎么说
太空
[词典]
[航]
the
firmament;
outer
space;
aether;
firmament;
[例句]一个俄罗斯太空舱目前正在绕地球轨道飞行。
A
Russian
space
capsule
is
currently
orbiting
the
Earth.
可以通过向太空站发射无人太空舱来实现救援计划。
A
rescue
plan
could
be
achieved
by
sending
an
unmanned
mole
to
the
spacestation.
⑤ "太空"英文是什么
太空:
1. outer space
2. space
3. firmament
4. aether
Examples:
1. 我们的地球在太空中运行。
Our earth moves through space.
2. 据信这种生物来自外太空。
These creatures were believed to have come from outer space.
3. 新的太空宇航计划仍未公开。
The plans for the new space mission are still under wraps.
4. 这次测试表明太空中万有引力对星体的影响。
The test shows the effects of gravitation on bodies in space.
5. 对伽利略来说,地球上和太空中有不同的运动法则是没有多大意义。
It didn't make much sense to Galileo to have different rules for motion on earth and in space.
6. 她看起来彷佛刚从外太空回来似的。
It looks as if she had just come back from outer space.
7. 宇宙存在于太空。
The universe exists in space.
8. 也许太空的智慧生物已经访问过地球。
Maybe the earth has been visited by intelligent creatures from outer space.
space robot
太空机器人
Exploring outer space.
太空勘探
space generation station
太空电站
The deep of outer space.
深邃的太空
A mission to Mars.
火星太空行动
Funded the space program.
资助太空计划
Hong Kong Space Museum
香港太空馆
The rocket pierced through space.
火箭穿过太空
Space Jam
太空也入樽
Man is weightless in space.
人在太空失重。
⑥ 太空的英语是什么
space
⑦ 太空的英语怎么说
aether
firmament
outer space
都是
⑧ 关于太空的资料(英文)
The term universe has a variety of meanings, based on the context in which it is used. In strictly physical terms, the total universe is the summation of all matter that exists and the space in which all events occur or could occur. The part of the universe that can be seen or otherwise observed to have occurred is usually called the known universe, observable universe, or visible universe. Because cosmic inflation removes vast parts of the total universe from our observable horizon, most cosmologists accept that it is impossible to observe the whole continuum and may use the expression our universe, referring to only that which is knowable by human beings in particular. In cosmological terms, the universe is thought to be a finite or infinite space-time continuum in which all matter and energy exist. Some scientists hypothesize that the universe may be part of a system of many other universes, known as the multiverse.
Outer space
"Deep space" redirects here. For the NASA space probes, see Deep Space 1 and Deep Space 2.
Layers of Atmosphere - not to scale (NOAA)Outer space, also simply called space, refers to the relatively empty regions of the universe outside the atmospheres of celestial bodies. Outer space is used to distinguish it from airspace (and terrestrial locations). Contrary to popular understanding, outer space is not completely empty but contains a low density of particles, predominantly hydrogen gas as well as electromagnetic radiation.
Earth's boundary
There is no discrete boundary between the Earth's atmosphere and space as the atmosphere graally attenuates with increasing altitude. If the atmosphere had a constant temperature, its pressure would decrease exponentially from a sea-level value of 100 kPa (1 bar) toward its final value of zero. The Federation Aeronautique Internationale has established the Kármán line at an altitude of 100 km (62 miles) as a working definition for the boundary between atmosphere and space. The United States designates people who travel above an altitude of 50 miles (80 km) as astronauts. During re-entry, 400,000 feet (75 miles or 120 km) marks the boundary where atmospheric drag becomes noticeable.
[edit]
Solar System
Outer space within the solar system is called interplanetary space, which passes over into interstellar space at the heliopause. The vacuum of outer space is not really empty; it is sparsely filled with several dozen organic molecules discovered to date by microwave spectros. According to the Big bang theory,2.7 K blackbody radiation was left over from the 'big bang' and the origin of the universe, and cosmic rays, which include ionized atomic nuclei and various subatomic particles. There is also gas, plasma and st, and small meteors and material left over from previous manned and unmanned launches that are a potential hazard to spacecraft. Some of this debris re-enters the atmosphere periodically.
The absence of air makes outer space (and the surface of the Moon) ideal locations for astronomy at all wavelengths of the electromagnetic spectrum, as evidenced by the spectacular pictures sent back by the Hubble Space Telescope, allowing light from about 14 billion years ago, back almost to the time of the Big Bang to be observed. Pictures and other data from unmanned space vehicles have provided invaluable information about the planets, asteroids and comets in our solar system.
[edit]
Pressure variance
Going from sea level to outer space proces a pressure difference of only about 15 lbf/sq in, equal to surfacing from an underwater depth of about 34 ft (10 m).
[edit]
Vacuum
Contrary to popular belief a person suddenly exposed to the vacuum would not explode, but it would take a matter of milliseconds for a person to freeze to death. Water vapor would start to boil off from exposed areas such as the cornea of the eye, and along with oxygen, from membranes inside the lungs. Here is NASA's explanation.
[edit]
Satellites
There are many artificial satellites orbiting the Earth, including geosynchronous communication satellites 35,786 km (22,241 miles) above mean sea level at the Equator. Their orbits never "decay" because there is almost no matter there to exert frictional drag. There is also increasing reliance, for both military and civilian uses, of satellites which enable the Global Positioning System (GPS). A common misconception is that people in orbit are outside Earth's gravity because they are obviously "floating". They are floating because they are in "free fall": the force of gravity and their linear velocity is creating an inward centripetal force which is stopping them from flying out into space. Earth's gravity reaches out far past the Van Allen belt and keeps the Moon in orbit at an average distance of 384,403 km (238,857 miles). The gravity of all celestial bodies drops off toward zero with the inverse square of the distance.
[edit]
Milestones on the way to space
Sea level - 100 kPa (1 atm; 1 bar; 760 mm Hg; 14.5 lbf/in²) of atmospheric pressure
4.6 km (15,000 ft) - FAA requires supplemental oxygen for aircraft pilots and passengers.
5.0 km (16,000 ft) - 50 kPa of atmospheric pressure
5.3 km (17,400 ft) - Half of the Earth's atmosphere is below this altitude.
8.8 km (29,035 ft) - Summit of Mount Everest, the highest mountain on Earth
16 km (52,500 ft) - Pressurized cabin or pressure suit required.
18 km (59,000 ft) - Boundary between troposphere and stratosphere
20 km (65,600 ft) - Water at room temperature boils without a pressurized container. (The popular notion that bodily fluids would start to boil at this point is false because the body generates enough internal pressure to prevent it.)
24 km (78,700 ft) - Regular aircraft pressurization systems no longer function.
32 km (105,000 ft) - Turbojets no longer function.
34.7 km (113,740 ft) - Altitude record for manned balloon flight
45 km (148,000 ft) - Ramjets no longer function.
50 km (164,000 ft) - Boundary between stratosphere and mesosphere
80 km (262,000 ft) - Boundary between mesosphere and thermosphere
100 km (328,084 ft) - Kármán line, defining the limit of outer space according to the Fédération Aéronautique Internationale. Aerodynamic surfaces no longer function from lack of significant atmospheric density.
120 km (400,000 ft) - First noticeable atmospheric drag ring re-entry from orbit
200 km - Lowest possible orbit with short-term stability (stable for a few days)
350 km - Lowest possible orbit with long-term stability (stable for many years)
690 km - Boundary between thermosphere and exosphere
[edit]
Regions of outer space
Cislunar space
Interplanetary space
Interstellar medium
Intergalactic space
[edit]
Space does not equal orbit
To perform an orbital space flight, a spacecraft must go higher and faster than for a sub-orbital space flight. A spacecraft has not made orbit until it is circling the Earth at a sufficiently great speed such that the weight of the spacecraft is exactly equal to the centripetal acceleration required to keep it in a circular orbit (see circular motion). It must not only rise above the atmosphere, but must also achieve a sufficient orbital speed (angular velocity). For a low Earth orbit, this is about 7.9 km/s (18,000 mph). Konstantin Tsiolkovsky was the first to realize that, given the energy available from any available chemical fuel, a several-stage rocket would be required. The escape velocity to pull free of Earth’s gravitational field altogether and move into interplanetary space is about 40,000 km/h (25,000 mph or 11,000 m/s). The energy required to reach velocity for low Earth orbit (32 MJ/kg) is about twenty times the energy required simply to climb to the corresponding altitude (10 kJ/(km·kg)).
There is a major difference between sub-orbital and orbital space flights. Minimal altitude for a stable orbit around the Earth, without excessive atmospheric drag, begins at around 350 km (220 miles) above mean sea level. A common misunderstanding about the boundary to space is that orbit occurs simply by reaching this altitude. Achieving orbital speed can theoretically occur at any altitude, although atmospheric drag precludes an orbit that is too low. At sufficient speed, an airplane would need a way to keep it from flying off into space, but at present, this speed is several times greater than anything within reasonable technology.
⑨ 介绍space(太空),要用英文的
The space is really fantanstic. There are many star in the sky.
People can't count them.But people can drive the a spacecraft
to the space.We should good good study,when we grow up, drive a spacecraft to the there,too.