觀日望遠鏡 的英文怎麼說
中文拼音 [guānrìwàngyuǎnjìng]
觀日望遠鏡
英文
helioscope- 觀 : 觀名詞1. (道教的廟宇) taoist temple2. (姓氏) a surname
- 日 : Ⅰ名詞1 (太陽) sun 2 (白天) daytime; day 3 (一晝夜; 天) day 4 (泛指某一段時間) time 5 (日...
- 望 : Ⅰ動詞1 (向遠處看) look over; gaze into the distance; look far into the distance 2 (探望) visi...
- 遠 : Ⅰ形容詞1 (空間或時間的距離長) far; distant; remote 2 (血統關系疏遠) distant in relationship 3...
- 鏡 : Ⅰ名詞1 (鏡子) looking glass; mirror 2 (幫助視力或做光學實驗的器具) lens; glass 3 (姓氏) a s...
- 望遠鏡 : telescope; binocle
- 望遠 : telescope objective
-
The main research contents of the physical design include : presenting the domestic and international status of space weather and expanding on the need and the importance about the space weather forecast ; sorting the disastrous space weather and discussing their effects and adapted prediction methods ; analyzing the solar disturbing resources of space weather and the precursor or concomitant phenomena of solar eruption based on the newest observational results ; probing into the radiation principle of solar short - wave ray and presenting the computing methods about solar continuum and line spectrum radiation ; extrapolating physical methods of reconstructing the temperature and the emission measure of coronal plasma ; argumenting the effective observing spectrum for space weather empirical forecast and space weather numerical forecast
物理設計的主要研究內容包括:分析目前國內國際空間天氣預報的發展現狀及開展空間天氣預報的必要性和重要性;分類討論了災害性空間天氣的種類、影響及目前國際上的預報方法:分析了空間天氣太陽擾動源及擾動源爆發的先兆現象或者伴生現象;討論了太陽短波輻射線譜和連續譜輻射強度的計算方法:推導了利用望遠鏡多波段的觀測結果反演日冕等離子體溫度、發射量等參數的物理方法:論證了開展空間天氣經驗預報和發展數值預報有效的成像譜段。He was the first person who used a telescope to observe the sky. this was the first time that a person used an instrument to enhance one s observing capability
伽利略是日心說的忠實擁護者,也是世上第一個利用望遠鏡窺探天空的人,這是人類首次在天文上利用儀器增強自己的觀測能力。Oct. 20, 2007 on the ridge of field, the guider and a student were staring at circumstances around through binoculars. the yandong lake bird - watching contest of wuhan universities
2007年10月20日,在一塊田埂高處,帶隊的向導和一名學生用望遠鏡觀望周邊情況。武漢高校嚴東湖觀鳥比賽。The event gave us a good opportunity to discuss the processes of magnetic change, energy release and particle acceleration in the corona during the preflare, especially using decimetric and microwave fine structure data. in this thesis, we report the solar type iv bursts and its associated fiber fine structures recorded on 14 july 2000
中國國家天文臺懷柔觀測站的寬帶頻譜射電望遠鏡,觀測到了來自內日冕區的射電爆發及其精細結構,攜帶著耀斑爆發初期磁場變化、能量釋放的豐富信息,很有必要對其進行深入的理論分析和計算。Solar images can be obtained by four telescopes at 13. 0nm, 17. 1nm, 30. 4nm and 19. 5nm respectively. it is important for calibration of eut in orbit selecting a proper spectrum line
四個通道都是在特定譜線對日進行觀測,因此必須選一條公共的譜線經望遠系統對日成像,以便完成望遠鏡在軌校準。The space observation in soft x - ray and extreme ultraviolet ( euv ) region is an important portion of the space astronomy and an effective solar observation method developed increasingly. in this thesis we designed a euv multi spectrum space solar telescope ( eut ) based on the requirement of high angular resolution and wide field of view for solar observations ; investigated the transmission performance of eut ; invented a method of eut pointing calibration on the space orbit and solved the high precision pointing calibration problems ; constructed a prototype of 17. 1nm telescope, tested the possibility of eut design, and developed some cutting - edge techniques
本文根據空間平臺上高解析度對日觀測的需要,設計出一種可以在四個極紫外波段對日同時成像多光譜太陽望遠鏡( eut ) ;研究了極紫外( euv )波段太陽望遠鏡光學傳輸特性;提出了真空紫外波段在軌指向的標定方法,解決了高精度指向標定問題;研製出一臺17 . 1nm望遠鏡的地面樣機,驗證eut設計的可行性,攻克了部分關鍵的技術難關;為進一步的研究工作奠定了基礎。But a set of results from the hubble space telescope, released on tuesday may 15th ( ahead of publication in the astrophysical journal, in june ), suggest that dark matter may finally have been “ seen ”
不過5月15日發布的一組哈勃太空望遠鏡觀測到的結果(比六月《天體物理學雜志》的出版要早)表明,人們或許最終能「看見」暗物質。Due to the strong sunlight, members of the public must not look directly at the sun with the naked eye or through a telescope
由於太陽光線非常猛烈,市民千萬不可用肉眼或透過望遠鏡直視太陽,並應避免長時間觀看日食。Due to the strong sunlight, people must neither look directly at the sun with the naked eye nor through a telescope. they should also avoid observing the transit for a prolonged period
由於太陽光線非常猛烈,市民千萬不可用肉眼或透過望遠鏡直視太陽,並應避免長時間觀看金星凌日。分享友人