我们已经知道,这个恒星是三颗行星的母行星,所以如果能分别证实新的三个发现,那么总数可能达到六颗。
The star in question was already known to host three planets, so the total could reach six if the new finds are independently confirmed.
上面这幅令人印象深刻的影像,只是已发布六十格电影的一个定格而已;这部电影呈现了土卫五滑过母行星前方的情景。
As striking as the above image is, it is but a single frame from a recently released 60-frame silent movie where Rhea can be seen gliding in front of its parent world.
第一个是一对质量与木星差不多的行星,这对行星步调一致地围绕距离地球15光年的母恒星旋转。
The first is a pair of planets, each about the mass of Jupiter, that whirl around their home star 15 light years from Earth in perfect lockstep.
我们从这个行星不同的地方采集了样品,把它们带到母船上,我们用了所有的方法检测。
We picked up several from different parts of the planet, took them aboard our recon vessels, and probed them all the way through.
这颗行星,可能是一颗走恶运的星球,绕着它的母星快速公转快于一个地球日。
This planet, possibly an ill-fated world, whips around its star in less than one Earth day.
同时,他们还需要更多的时间来观测那些离母星更远的外行星。
Also, it needs more time to detect exoplanets that orbit further away from their stars.
迄今为止所发现的454颗系外行星中,多颗都具有极近椭圆形的轨道,这意味着行星与它们的母星并不总保持相同距离。
Many of the 454 exoplanets discovered to date have highly elliptical orbits, meaning the planets are not always the same distance from their parent star.
SWEEPS - 10运行在离母星只有740,000英里的轨道上,由于太近了以至于在这颗行星上每十天就是一年。
SWEEPS-10 orbits its parent star from a distance of only 740, 000 miles, so close that one year on the planet happens every 10 hours.
然而,还有一颗绕着母星逆行的行星。
There is, however, a planet known to orbit backwards around its parent star.
美国宇航局的开普勒飞船发现了称号为开普勒16b的新行星,当它飞越或交叉在它的母恒星前面时,会造成了每颗恒星的亮度周期性地变暗。
NASA's Kepler spacecraft uncovered the new planet, dubbed Kepler 16b, as it transited-or crossed in front of-both its parent stars, causing the brightness of each star to dim periodically..
美国宇航局的开普勒飞船发现了称号为开普勒16b的新行星,当它飞越或交叉在它的母恒星前面时,会造成了每颗恒星的亮度周期性地变暗。
NASA's Kepler spacecraft uncovered the new planet, dubbed Kepler 16b, as it transited—or crossed in front of—both its parent stars, causing the brightness of each star to dim periodically. 。
望远镜观测通常仅仅能提供关于某颗系外行星的基本信息,诸如最小质量、与母恒星的距离、以及是否更可能是气态的或者像地球那样是岩石质的。
Telescopic surveys usually reveal just basic information about an extrasolar planet's minimum mass, its distance from its parent star, and whether it is likely to be gassy or rocky, like Earth.
大多数行星都是在与母星赤道一致的平面上公转。
Most planets orbit in a plane that corresponds to their parent star's equator.
通过寻找绕行星轨道运行的母恒星中的摇晃,已定位了400多个行星。
More than 400 have been located by looking for the wobbles in parent stars that orbiting planets cause.
死星摧毁里肯的家园时,他不在母星,而在视察位于德拉亚行星远轨道的新卫星传输系统。
Rieekan was off-planet, inspecting a new satellite transmission system in far orbit around the planet Delaya when the Death Star obliterated his home.
它的母恒星与太阳相似,这又与其他两个候选外行星不同,其他两个候选外行星都环绕较冷的、较昏暗的恒星运行。
Its parent star is similar to the sun, again unlike those of the other two candidates, both of which orbit cooler, dimmer stars.
关键在于行星到母恒星的距离必须恰到好处,远了近了都不行。
The key lies in the planet to the female star distance to just right, far near has not been good.
大多数系外行星都是通过一种叫“摆动方法”的测量方法发现的。这些行星的引力在他们母星上造成的节奏摆动就像是两个体重相差悬殊的人在跳华尔兹。
Most exoplanets have been discovered by inferring their presence from the rhythmic wobble their gravity imparts on their home star-like a waltz between two dancers of markedly different weights.
事实就是,一些母船是如此的巨大,学习voip网络电话机。使得它们能够轻易的复制出任何行星的地表条件。
In fact some are so large that they can easily replicate the surface of any planet.
研究小组表示不排除这样的可能,即一些行星在远处绕着它们的母恒星在轨道内运行。而从数据中很难发现这些母恒星。
The team said that it can't rule out the possibility that some of the planets are just orbiting their stars at very far distances and that the parent stars just don't show up in the data.
美国宇航局的开普勒飞船发现了称号为开普勒16b的新行星,当它飞越或交叉在它的母恒星前面时,会造成了每颗恒星的亮度周期性地变暗。
NASA's Kepler spacecraft uncovered the new planet, dubbed Kepler 16b, as it transited-or crossed in front of-both its parent stars, causing the brightness of each star to dim periodically...
被发现的多属于类木的气体巨星,甚至是贴近母恒星的热木类行星,寻找类地的系外行星是未来搜索的重点。
Most of them are Jupiter-like gas giants, or even Hot Jupiters that orbit their parent star too closely. Earth-like planets searches will become the main target in the future.
行星会和母恒星一样大吗?
行星会和母恒星一样大吗?
应用推荐