泳動 的英文怎麼說

中文拼音 [yǒngdòng]
泳動 英文
panting
  • : 動詞(游泳) swim
  1. Body dynamics in crawl and backstrokes : myths dispelled

    與仰中的身體力學:神秘就此消失?
  2. Most of those taking part in the organized chaos come prepared in swimwear, with some donning diving goggles and bathing caps before six trucks drive through the town ' s streets pouring their cargo of ripe fruit onto the town ' s streets

    絕大多數狂歡節參加者在活之前都會穿上衣,戴上潛水鏡和浴帽。投擲開始前,六輛滿載西紅柿的卡車會將熟透的西紅柿傾倒在布諾的街道上供人們狂歡。
  3. After molting three times, the zoea enter the mysis stage during which they begin to look more like adult shrimp and swim in a characteristic fashion with head and tail pointed downwards at right angles and occasionally performing a sudden retrograde jumping action. this is known as the inversion state, the fry being suspended upside - down in the upper middle region of the pond water. this is, therefore, also called the " inverted suspension phase "

    眼幼蟲脫第三次即進入糠蝦期幼蟲期mysis stage ,此期之體形已略成蝦之狀態,且具特有之游姿態,即頭部及尾部均向下,成一直角彎曲而時作向後跳躍游,又因成倒立狀態,懸浮於水中的中上層,又叫倒吊期,此期幼蟲對外界的環境因素,如水溫鹽分等變化,比前兩期來得更具適應力,主要餌料為豐年蝦brine shrimp的幼蟲,但其他大小略同的物性浮游生物,如橈腳類copepoda輪蟲類rotifera均可。
  4. 15. 1 canoeist should be able to swim 50m in canoe clothing and must be qualified for

    參與活者必須能在穿著衣服下游超過五十米及俱備資格
  5. Cellulose acetate membrane automated electrophoresis systems

    乙酸纖維素薄膜自系統
  6. Indoor games halls, swimming pools, libraries, civic centers, cultural centres, city halls and museums of the leisure and cultural services department

    康樂及文化事務署轄下的室內運場、池、圖書館、文娛中心、大會堂及博物館
  7. For example, it can enter human body to inspect inner organ, deliver drug to assigned spot and operate local body surgery. supported by the nation nature science foundation of mechanism, structure and control study on swimming micro robot in liquid ( item no. 69885002 ) and guangdong province science foundation of research on swimming micro robot in liquid ( item no. 980402 ) and guangdong province education department foundation of research on micro pipe robot driven by liquid self energy ( item no. 010043 ), this dissertation mainly study on the designing and manufacturing of swimming micro robot and its swimming performance, building up and analysing the dynamic model, natant problem of swimming micro robot and controlling the swimming velo city

    本論文得到國家自然科學基金項目「泳動微機器人的機理、機構和控制」 (項目資助號: 69885002 ) 、廣東省自然科學基金項目「液體中泳動微機器人的研究」 (項目資助號: 980402 )和廣東省教育廳基金項目「基於流體自身能量的微管道機器人研究」 (項目資助號: 010043 )等的資助,主要對在液體中運微機器人的國內外研究現狀、水生生物推進機理及其對泳動微機器人研究的借鑒和啟發作用、泳動微機器人的設計與製作、微機器人力學模型的建立與分析、微機器人的自主浮遊與泳動速度控制等方面進行了大量的理論與實驗研究。
  8. Additive drag perturbation method for measuring active drag in swimming

    測量游泳動態阻力的附加阻力微擾
  9. I only wanted to see you bathing in the purple rain

    我只想看到你在紫雨中泳動
  10. Study on hma system for hiv - 1 subtyping in shandong province

    異源雙鏈泳動分析法分型體系研究
  11. The rate of migration varies with molecular size and shape

    泳動速度隨分子大小和形狀而改變。
  12. Based on the aerodynamics, this dissertation researches the condition of swimming micro robot to float in liquid by its self - motivity for the first time

    在此基礎上,設計了模糊控制器,對微機器人的泳動速度進行控制,並進行了有關模擬。
  13. Experimental research shows that, the designed main mechanism is reasonable ; swimming velocity varies with the frequency exerted on ; steering motion can by realized by changing the frequency f, and f2 of control power which exerts on two pzt. finally

    實驗結果表明: ( 1 )液體中微機器人的主體結構設計是合理的; ( 2 )通過改變電源頻率可控制微機器人的泳動速度。
  14. The main contents and related original achievements are described in the following : first, this dissertation deeply analyses the current status and problems of swimming micro robot in liquid, which is the important basis of following study

    首先,本文對在液體中運微機器人的研究現狀和主要研究問題進行了深入分析,為泳動微機器人的進一步的研究與實現奠定了堅實的基礎。
  15. The investigation results indicate the ipmc actuators have many merit including simple in structure, low driving voltage, large deformation and light weight, which make them have potential in swimming microrobotic structure with fish - like propulsion in water or aqueous medium and biomedicine applications

    研究結果表明,該制器具有結構簡單、驅電壓低、相對變形量大、重量輕等優點,在泳動仿生微機器人推進和生物醫學應用方面具有較大的潛力。
  16. The result shows that the design of micro robot, statics model and vibration model are valid. additionally, this dissertation tests the swimming dynamic performance of robot and modifies the dynamic model by experiments which is quite helpful to realize the control of micro robot

    本文建立了微機器人的泳動環境,進行了微機器人的力學試驗,根據試驗結果對模型進行了一定的修正,使模型與實際基本吻合,從而為實現為機器人的有效控制奠定基石出。
  17. ( 2 ) the liver mdh isozymes of microtus fortis were rather conservation in evolution. the mdhm zones of all voles were located to the same migratory line with the similar activity. the migratory rates of the mdhs zones from all voles were identical but the activity of mdhs of the voles from ningxia was weaker than that of the other voles

    ( 2 )四類東方田鼠的肝mdh同工酶變異不大, mdhm都在同一泳動線上且酶活性相似,而mdhs雖然泳動速度都一致但寧夏鼠的酶活性較其它三類鼠弱。
  18. In order to set up the dynamic model of swimming micro robot, this dissertation builds up the statics model and analyses the micro motion amplifying performance of micro robot mechanism, builds up the vibration model of micro robot and analyses the vibrating performance without and with damp, researches the propelling force of driven wing and the resistance of micro robot in liquid based on the theory of flat board resisting stream, builds up the dynamic model of swimming micro robot for the first time in nation and analyses its swimming performance which is influenced by driving signal frequency, amplifying performance of main machanism, area of driven wing, character of fluid and so on. this dissertation manufactures the micro robot and sets up the experimental environment and tests the amplifying effect and the vibrating performance

    本文建立了主體機構靜力學模型,研究了主體機構的結構參數對微位移放大性能的影響;建立了主體機構振模型,研究了主體機構在無液體阻尼和有液體阻尼情況下的振特性;根據流體力學平板繞流理論,研究了驅翼產生的推進力和微機器人在流體中受到的阻力;在此基礎上國內首次建立了泳動微機器人的力學模型,並對模型進行了深入的研究,詳細闡明了驅信號頻率、主體機構放大性能、主體機構振特性、驅翼面積、液體性質等因素對微機器人泳動特性的影響。
  19. A new method which carried out the self - assembly of drug - loading nanoparticles and stent by comprehensively applying the micro - forces such as dielectrophoretic force, capillary force, and hydrophobic force is put forward, and the self - assembly process schematic drawing is given

    同時提出綜合應用介電泳動、毛細作用和組件的疏水性等微觀作用力,實現載藥納米顆粒與血管支架自組裝的方法,並給出了自組裝的實現工藝圖。
  20. It is believed that it can bring the important inspiration for the future medical micro robot which can be embedded into inner organ of human for inspection, drug spot deliverance and local body surgery. supported by supported by the nation nature science foundation of mechanism, structure and control study on swimming micro robot in liquid ( item no. 69885002 ) and guangdong province science foundation of research on swimming micro robot in liquid ( item no. 980402 ) and guangdong province education department foundation of research on micro pipe robot driven by liquid self energy ( item no. 010043 ), this dissertation mainly deals with much theoretical and, including research situation and the main issue of micro mobile robot in liquid, fish propulsion mechanism, design and locomotion mechanism, and flagellum - like propulsion swimming micro robot in low reynolds number viscous liquid

    本論文得到國家自然科學基金項目「泳動微機器人的機理、機構和控制」 (項目資助號: 69885002 ) 、廣東省自然科學基金項目「液體中泳動微機器人的研究」 (項目資助號: 980402 )和廣東省教育廳基金項目「基於流體自身能量的微管道機器人研究」 (項目資助號: 010043 )的資助,主要對液體中微機器人的國內外研究現狀和主要研究問題、魚類推進機理、液體中微機器人的設計與運機理、低雷諾數粘性液體中仿鞭毛推進微機器人研究等方面進行了大量的理論與實驗研究。
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