生物磁學 的英文怎麼說
中文拼音 [shēngwùcíxué]
生物磁學
英文
biomagnetism- 生 : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
- 物 : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
- 磁 : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
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A lot of domains are involved with, such as theory of electromagnetism, electrotechnics, electronics, measurement of electromagnetism. signal analysis, mechanics, cybernation, biomedicine, materials, technics, ect. the study of emc is very fargoing and the problem of emc is very complex
它涉及的基礎知識面非常寬廣,直接應用和涉及的知識有電磁場理論、電工原理、電子技術、電磁測量、信號分析、機械結構、自動控制、生物醫學、材料及工藝等等。The soil magnetism data is the groundwork of biomagnetism application in agriculture
摘要土壤磁性數據將是生物磁學農業應用的基礎。Based on soil magnetism investigation on one of area in hebei province tibility data to describe the soil magnetic background of plain area in hebei province, and to study the method of biomagnetism application in agriculture
通過對河北省平原區某地土壤樣品的磁性測試,試圖分析河北省平原區的土壤磁性背景,探討生物磁學農業應用的途徑。This product basis physics , bionics and the resistance induction of human body survey theory , and combination plenty of clinical practices develop development , it is attacked that this product not only has to bang, needle jiu , massage, fiery jar, scrape sha , the 6 big functions of traditional chinese medicine such as massage pattern and step - down, geng the comprehensive prescription patterns such as shoulder and waist leg beautiful body, and more have acupoint alone to seek, electricity jiu the functions such as therapy
該產品根據物理學、仿生學、人體電阻感應探測理論、生物電學、中醫針灸學、磁療共振學、中國古典醫學及現代微電子技術,並結合大量臨床實踐而研製開發的,該產品不但具有捶擊、針灸、推拿、火罐、刮痧、按摩等六大中醫功能模式和降壓、頸肩、腰腿美體等綜合處方模式,而更獨有穴位查找、電灸療法等功能。It plays a very important role in many application, according to the point of mathematics point, its mostly application originate from equations of mathematical physics, difference equations, markov process, and so on, its purpose is to solve the problems of solid, fluid, electromagnetic, microscopic particles, system control, and etc. in practical science research and engineer applications, such as, architecture project, research of aeronautics and astronautics, bioscience, computing physics and oil reconnoiter, many large scale generalized eigenvalue problems need to be solved
它在很多應用中扮演非常重要的角色,從數學角度來看,矩陣特徵值問題的應用大多來自數學物理方程、差分方程、 markov過程等。目的是為了計算固體、流體、電磁、微觀粒子、系統控制等重大問題。在實際的科學研究與工程應用中,比如在建築工程、航空航天研究、生物科學、計算物理以及石油勘探中,都要涉及到大規模矩陣廣義特徵值問題的計算。Obtaining structure and function of proteins is one of the main purposes of research in biology, but determining three - dimensional structure of protein by means of x - rays crystallography and nuclear magnetic resonance spectroscopy, and research in protein structure by the way of biochemistry, already can ’ t adapt the need of the rapid increase of protein sequence
獲取蛋白質的結構和功能是生物學研究的重要目的之一,但是使用x光晶體衍射和核磁共振技術等實驗手段測定蛋白質的三維結構,以及使用生物化學方法研究蛋白質的功能時效率不高,已經無法適應蛋白質序列飛速增長的需要。Nuclear magnetic resonance ( nmr ) and magnetic resonance imaging ( mri ) technologies are widely used for physical, chemical, material and biomedical analysis and medical diagnosis
摘要核磁共振波譜和核磁共振成像技術( mri )已經成為一種廣泛應用於物理、化學、材料、生物醫學等領域的重要研究工具和醫療診斷手段,但是儀器復雜、價格昂貴。Master or doctor degree on physics, electromagnetic field physics, bio - medical engineering or electronical engineering
物理,電磁場物理,生物醫學工程,電子工程專業碩士以上學位。There was no bent stress. conclusion the stress distribution of the mandibular complete overdenture supported by implants with magnetic attachments was suitable for the biomechanical needs of implant and was benefit to implant success
磁性固位種植義齒的種植體應力分佈符合生物力學要求,有利於種植體的長期成功。Abstract : objective in order to analyse the stress distribution of the mandibular full overdenture supported by implants with magnetic attachments. method two dimensional photoelastic stress analysis were used in this study
文摘:目的了解磁性固位的下頜種植覆蓋義齒的應力狀況及其分佈規律,為磁性固位體的臨床應用提供生物力學依據。Magnetic microsphere, a new kind of functionat material, was widely used in biomedical fields
摘要磁性微球作為一種新型功能材料,在生物醫學工程等領域有著廣泛的應用前景。Meanwhile, the application of magnetic microsphere in biomedical field such as enzyme immobilization, cell separation, targeted medicine and diagnosis were narrated in detail
同時著重闡述了磁性微球在固定化酶、靶向藥物、細胞分離、診斷等生物醫學領域的應用。Recent developments of magnetic microspheres for use in the fields of biomedicine
磁性微球在生物醫學領域中的應用進展The martino center for biomedical imaging is a research center based in the department of radiology of the massachusetts general hospital
磁共振成像中心是麻省州立醫院放射醫學系一個生物醫學成像的研究中心。Regarding research direction, in the area of modern medical science, the graduate training develops to upstream specialty basic sciences such as physiology, pharmacology, microbiology and immunology on the basis of biology, chemistry and molecular biology, while in engineering area the graduate studies pursue the advanced applied sciences such as electricity, magnetic, optical science, mechanics and acoustics on the basis of mathematics and physics
研究方向方面現代醫學教育的多是以生物化學、分子生物學為基礎,向上發展生理、藥理、微免、解剖等基礎醫學專業科目,而工程教育則是以數學、物理為基石,向上發展電學、磁學、光學、力學、聲學等應用科學。Permittivity measurement has become increasingly important in microwave biochemistry and bio - electromagnetics in recent years
近年來,介電常數的測量已成為微波生物化學和生物電磁學領域的重要研究課題之一。Because of their great application potentials in biomedicine, magnetic nanoparticles have got great and wide attention in the fields of nanomaterials and nanobiology
摘要磁性納米顆粒因其潛在的生物醫學應用價值而成為納米生物材料領域研究的前沿。As a part of new materials, nanostructured materials are playing an important role in many fields, such as information, manufacturing, biotechnology and agriculture etc. in this paper, we have deve loped several methods for preparation of ni, ceoi and co / ni nanopowders, and have studied their application in catalytic dehydrogenation, ion - selective electrodes and industrialize amplification of nickel nanopowder
使得納米粉體材料與常規粉體材料相比具有一系列電、磁、光及力學等方面的新異特性,從而使其作為一種新型材料在電子、信息、農業、冶金、宇航、化工和生物醫學等領域佔有十分重要的地位。Artificial magnetic crystals of similar dimension might soon serve biomedical research in a novel way
類似大小的人造磁性晶體,可能很快就會以全新的方式應用在生物醫學研究上。The result is a semiconductor nanocrystal, or, in the talk of the trade, a “ quantum dot. ” like nanoscale magnetic crystals, these minuscule dots have much to offer biomedical researchers
一如奈米尺度的磁性顆粒,這些量子點對生物醫學的研究者可是有很大的用處。分享友人