The second largest radio telescope is in Russia.
第二大射电望远镜在俄罗斯。
The world's largest radio telescope was finished on Sept. 25, 2017 in China.
世界上最大的射电望远镜于2017年9月25日在中国完工。
The radio telescope thus appeared, and it is considered one of the greatest inventions in the twentieth century.
电波望远镜就这样出现了,它被认为是二十世纪最伟大的发明之一。
The radio telescope is like an ear, listening to tell meaningful radio messages from white noise in the universe.
电波望远镜就像一只耳朵,从宇宙的白噪音中分辨出有意义的无线电信息。
Radio telescopes are sometimes grouped together, is the same effect as having one big telescope to increase radio wave gathering power.
射电望远镜有时会被组合在一起,这与使用一个大望远镜来增加无线电波的收集能力是一样的。
So far there have been a number of searches by various groups around the world, including Australian searches using the radio telescope at Parkes, New South Wales.
到目前为止,世界各地的不同组织已经进行了多次搜索,包括澳大利亚人使用射电望远镜在新南威尔士州帕克斯进行的搜索。
One part is a targeted search using the world's largest radio telescopes, the American-operated telescope in Arecibo, Puerto Rico and the French telescope in Nancy in France.
"其中一部分是有针对性的搜索,使用了世界上最大的射电望远镜,分别是:在波多黎各阿雷西博的由美国操作的望远镜,在法国南茜使用的望远镜。
The radio telescope is very sensitive and can be used to observe a broader scope.
该射电望远镜是非常敏感,可以用来观察一个更广泛的范围。
In 1967, a new type of radio telescope intended for the study of interplanetary scintillation came into operation.
1967年,一种新型的打算用于研究行星闪烁的射电望远镜投入了工作。
With the help of special radio telescope, the intensity of radiation can be measured in different parts of the sky.
借助于专门的射电望远镜,就可以测量天空中任何地方辐射的强度。
In 1937, the first radio telescope was built, enabling astronomers to detect otherwise invisible radiation from stars.
1937年,第一架射电望远镜落成,让天文学家能够检测到从恒星发射的不可见辐射。
The new giant array is being called the fastest radio telescope in the world with a virtual dish that spans Western Europe.
这个新的巨型阵列被视为世界上最快的射电天文望远镜,它的虚拟碟面跨越整了个西欧。
This is a telescope we used in Canada, it's a radio telescope, a lot like satellite dishes that we use for television.
这是我们在加拿大用的一个望远镜,是个射电望远镜,很像我们电视机用的卫星电视天线。
Theoretically, there are no limits to the dimensions of a radio telescope-array, but there are practical restrictions .
从理论上说,射电望远镜阵列的大小是不受限制的,但在实践上却有一定的局限性。
SERENDIP takes advantage of ongoing "mainstream" radio telescope observations as a "piggy-back" or "commensal" program.
SERENDIP利用运转中的主流射电望远镜作为“被扶持”或“共生”的一个计划。
A giant radio telescope, installed in a rural area of western Virginia, began to pursue signs of extraterrestrial life on 86 planets.
一台位于美国西弗吉尼亚州郊外的大型射电望远镜日前开始搜寻在86颗行星上存在的可能与外星人相关的生命。
At the same time, new and more specialized radio telescope arrays are being built to peer into the universe's earliest star-forming era.
与此同时,更多崭新的专业射电望远镜阵列正在建设,通过它们可以窥视到宇宙最初星云形成的时期。
To help researching the lunar radio telescope, the transmission coefficient of odd mode four-wire transmission line transformer is derived.
本文为了配合月球射电仪天线的研究,推导了奇模四线传输线变压器的传输系数。
China a has fitted the final piece on what will be the world's largest radio telescope, due to begin operations in September, state media report.
在安上最后一块后,中国组装好了世界上最大的射电望远镜,它将于九月开始运营,国家媒体报道说。
China a has fitted the final piece on what will be the world's largest radio telescope, due to begin operations in September, state media report.
在安上最后一块后,中国组装好了世界上最大的射点望远镜,它将于九月开始运营,国家媒体报道说。
The first complete implementation was used in 1971 on a DEC PDP-11 for the National Radio Astronomy Observatory's 11-meter radio telescope in Arizona.
而第一个完整的软件是1971年用在DECPDP-11 这台控制阿里桑娜州的NationalRadioAstronomyObservatory's 11-meter radio telescope ( 国家射电天文台的 11 米射电望远镜 ) 的电脑上.
The idea for the world 'most powerful radio telescope, capable of seeing back nearly to the origins of the universe, has been around for some time.
建造一架全世界最强大的射电望远镜,足以观察到宇宙的起源的想法已经产生很久了。
The far side has been suggested as a potential location for a large radio telescope, as it would be shielded from possible radio interference from Earth.
月球远侧被建议为安置大型射电望远镜的潜在地点,因为这个地点能够躲避可能来自地球的射电干扰。
We are used to calling an instrument of this kind in optics a telescope, and the radioastronomical counterparts are therefore briefly named "radio telescope" .
在光学上我们通常称这种类型的仪器叫望远镜,因而射电天文学上的对应物简称为“射电望远镜”。
This is the data amount anticipated when the SKA system as the world's largest and most sensitive radio telescope will be ready; it's construction will start in 2016.
这就是当这个世界上最庞大、最灵敏的射电望远镜准备就绪时,需要去处理的数据量;项目预计在2016年开始实施。
This is the data amount anticipated when the SKA system as the world's largest and most sensitive radio telescope will be ready; it's construction will start in 2016.
这就是当这个世界上最庞大、最灵敏的射电望远镜准备就绪时,需要去处理的数据量;项目预计在2016年开始实施。
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