倫琴線 的英文怎麼說
中文拼音 [lúnqínxiàn]
倫琴線
英文
roentgen ray-
Since bones show up clearly as white objects against a darker background, roentgen ' s rays proved particularly suited for examining fractures and breaks, but they could also spot cancer tumors, respiratory diseases such as tuberculosis or black lung, and a variety of other tissue abnormalities
由於當白色的物體對著深色的背景時骨骼顯現得很清楚,倫琴射線被證明尤其適合於檢查骨折和骨裂,但是它們也可以發現癌癥、腫瘤、肺結核或黑肺等呼吸道疾病以及一系列其他組織異常。A new vision of the fandango traditions on the caribbean coasts by grupo chuchumbe mexico and claudia calderon s piano llanero ensemble venezuela colombia
卓卓莫比樂隊墨西哥及歌狄亞卡德隆的草原民族鋼琴合奏團委內瑞拉及哥倫比亞:音樂新岸線A new vision of the fandango traditions on the caribbean coasts by grupo chuchumbe ( mexico ) and claudia calderon s piano llanero ensemble ( venezuela & colombia )
卓卓莫比樂隊(墨西哥)及歌狄亞卡德隆的草原民族鋼琴合奏團(委內瑞拉及哥倫比亞) : 《音樂新岸線》In 1895, wilhelm roentgen accidentally discovered that a cathode - ray tube could make a sheet of paper coated with barium platinocyanide glow, even when the tube and the paper were in separate rooms
1895年,威廉?倫琴偶然發現陰極射線管能使塗有一層氰亞鉑酸鹽鋇的薄相紙發光,甚至當陰極射線管和相紙分別放在不同的房間時也能發光。William roentgen discovered x - rays
威廉?倫琴發現了x射線。When rontgen put his hand before x - ray, he saw the bones of his hands only
倫琴把手放在x射線前面時,只見到手上的骨頭。1895 at wurzburg, wilhelm rontgen discovered x - rays ( rontgen rays )
德國物理學家威廉?倫琴在維爾茨堡發現x射線(即倫琴射線) 。1845 wilhelm von rontgen, german physicist who discovered x - rays and nobel prize winner. was born at lennep in prussia
發現x射線的德國物理學家、諾貝爾獎獲得者威廉?馮?倫琴出生於普魯士的倫內普。Rontgen could not see anything coming out of the tube, but then he discovered that if he put the screen in the next room on the other side of a closed door, the rays still seemed to affect it
倫琴沒有看到試管里有東西,但是以後他發現如果他在隔壁房間另一個關閉的門上放一個屏風,這些射線仍然能夠影響它。Ionization in a free-air chamber is the standard process for measuring x-and r-ray exposure(in roentgens).
自由空氣電離室中的電離作用是量度x和r射線照射量(倫琴)的標準方法。Although many ultraluminous x - ray sources in nearby galaxies were discovered by the einstein x - ray observatory and rosat, the poor sensitivity and spatial resolution provide little information about their nature. in particular, due to source confusion, it is very difficult for astronomers to search for signatures at other wavelengths in order to study the physical nature of ultraluminous x - ray sources
雖然愛因斯坦射線天文臺和倫琴射線衛星至今已發現了不少這類超強射線源,但由於靈敏度和空間解析度不足,所得的資料非常有限,再加上無法精確判定-射線的源頭位置,因此天文學家往往難以在其他波段來對它們進行詳細研究。分享友人