magnetic transformation 中文意思是什麼

magnetic transformation 解釋
磁變態
  • magnetic : adj. 1. 磁(性)的;(可)磁化的。2. 吸引人心的;有魅力的。3. 催眠術的。
  • transformation : n 轉變,變化;變形;【生物學】(尤指昆蟲的)轉化,變態,改造,改革;變質;【數學】變換;【電學】...
  1. Technical transformation of increasing recovery of magnetic iron of panluo iron mine

    潘洛鐵礦提高磁性鐵回收率的技術改造
  2. The explaining for region gravity and magnetic data is accomplished by using result of potency field transformation through level and vertical relating with level one - difference of several height and vertical two - difference and working out construct map of region geophysics

    對區域重磁資料的解釋就是利用位場變換結果,是通過不同延拓高度的水平一階導數、垂向二階導數圖的解釋,再進行水平和垂向關聯,編制區域物探構造圖的方式實現。
  3. A new decoupling control strategy of magnetic suspension forces is put forward using the transformation of variables and reference frames for the proposed bearingless motor

    利用混合式轉子無軸承電機的轉子特點,將磁懸浮力模型轉變為電流空間矢量方程,提出了一種新的磁懸浮力解耦控制方法。
  4. In this paper we discussed the evolution of two states system and geometric phase in a rotating magnetic field by using the method of coordinate transformation

    本文用旋轉坐標繫系法對二能級系統的在旋轉磁場中的演化和幾何相進行了研究。
  5. The industrial test of stage grinding, gravity separation - high intensity magnetic separation and anionic reverse flotation technology in co. 1 workshop of qidashan concentrator is described and its comparision with the original flowsheet and the analysis are made. the effort that should be made in the flowsheet transformation under the existing conditions is suggested

    介紹了齊大山選礦廠一選車間階段磨礦、重選-強磁選-陰離子反浮選工藝工業試驗情況,並與原流程進行了對比和分析,指出了在現有條件下進行流程改造應加強的工作。
  6. Beginning with the equivalence principal, two types of near - field to far - field ( nfff ) transformation s are discussed systematically, i. e. frequency - domain nfff ( fd - nfff ) and time - domain nfff ( td - nfff ). in td - nfff transformation, the concurrent - processing approach is used, where the contributions to far - field from the tangential electric current and magnetic current on the equivalence surface are calculated " on - the - fly " in step with the fdtd simulation. as a result, it is not necessary to store the tangential current components for every equivalence surface at every time step, and therefore reduce considerably computer storage required for the td - nfff transformation

    在理論部分,本文從電磁場的等效原理出發,系統、詳盡地論述了頻域和時域近遠場變換的基本思想,在時域近遠場變換中採用實時的變換方法,即每進行一個時間步的迭代,就計算一次等效面上該時間步的切向電流和切向磁流對遠場各方向的貢獻,這樣就使時域近遠場變換不需要儲存等效面上每一個時間步的切向電流和切向磁流,大大減小由於近遠場變換而增加的計算機內存需要量。
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