physics of materials 中文意思是什麼
physics of materials
解釋
材料物理學-
The traditional cell fusion methods have biologic inducement and chemical inducement. with the cell fusion having huge potential application on biology, medical science, pharmacy, the scientists from many countries who work on various fields such as physics, electronics, biology, medical science, etc. dived into a large amount of manpower and materials to carry on special research, in the eighties of last century a new cell fusion technology that cell electrofusion, had been developed
傳統的細胞融合方法有生物誘導法和化學法,由於細胞融合在生物、醫學、藥學上的巨大潛在應用,來自物理、電子、生物、醫學等領域的各國科學家相繼在該領域傾注了大量人力物力進行專項研究,八十年代發展起來的一門新興的細胞融合技術- -細胞電融合( cellelectrofusion ) 。 -
Galileo strongly fought against the traditional ideas of the aristotle ' s theories, and he formed the thought of identity, continuance and dialectical materialism in course of his scientific research. he had written the book dialogue concerning the two chief world systems - ptolemaic and copernican to refute the theory that the earth was static, and push the copernicus " revolution forward by protecting and advocating the cosmic principle of copernicus ; he get many scientific theories by making a thorough study of motion, so provided the materials need of which newton was ; he applied the scientific method firstly in history of science which combined mathematical inference with experience and observation organically, and entrusted modern meaning to some old - time methods, so advanced the development of scientific knowledge greatly and began the history of modern physics
伽利略強烈反對亞里士多德式的傳統思維觀念,在長期深入的運動研究中發展了同一性和連續性思想,以及把物質性質劃分為兩類的機械唯物主義思想;他著書立說駁斥「地靜說」 ,捍衛和宣揚「地動日心」的宇宙結構,推動了「哥白尼革命」 ;他深入研究運動,獲得大量科學理論,為牛頓綜合提供了豐富的材料;他在科學史上首次使用數學演繹與觀察實驗有機結合的科學方法,並賦予一些古老研究方法以現代含義,大大推進了科學認識的發展,開創了現代物理學歷史。 -
A common problem in theoretical chemistry, condensed matter physics and materials science is the calculation of the time evolution of an atomic scale system where, for example, chemical reactions and / or diffusion occur
一個在理論化學方面的很普通的問題,涉及到凝聚體物理學、材料科學,例如:化學反應和擴散發生的時間。 -
This teaching model has five characteristic : inspiring the students to be active, impulsing the students to raise questions, emphasizing on the learning process, encouraging cooperation and demanding the students " practice within and outside classes. the teachers who are applying for the teaching model must choose the interesting subjects from the main content of physics for the students to research, decide the research types, use the best organizing form, design the research activities and prepare related materials
根據探究式教學:主動性、問題性、過程性、合作性、實踐性的五個基本特徵,教師在中學物理教學探究準備時,必須從物理學中,選擇一些學生感興趣的的核心內容讓他們探究;還要確定探究類型;選擇最佳的組織形式;並進行探究活動的設計和準備相應材料。 -
The design architecture is a complex comprehensive subject, which involves architecture, sociology, folklore, psychology, human engineering, structural engineering, architectural physics, architectural materials and so on and also is concerned with furniture display, decorative materials, structures, functions, arts and crafts, greening, gardening, etc., and apply to many subjects knowledge to comprehensively conducts multi - levels parietal environment design. its means is to apply to plane part, spatial structure, perspective, illusion, light technology, reflection and color variety principles and material means making " big " space turn to " small ", while " small " space turn to " big ". and according to design requirements, the spaces are re - divided and composed making it increase visual extension, and add layers through various kinds of material structure changes that make " spacious " is not " blank " while " small " is not " crowded ", creating an anticipant style and atmosphere
建築設計是一門復雜的綜合學科,我們研究的目標及內容它涉及到建築學、社會學、民俗學、心理學、人體工程學、結構工程學、建築物理學以及建築材料學等學科,也涉及到傢具陳設,裝潢材料的結構和性能、工藝美術、綠化、造園藝術等領域,而且是運用多學科的知識,綜合的進行多層次的空間環境設計,其在手法上是利用平面主體和空間構造、透視,錯覺、光影、反射和色彩變化等原理以及物質手段,使大空間變小,小空間變大,按設計構思的要求,將空間重新劃分和組合,使之增加視覺上的擴展延伸,通過各種物質構件組織變化,加添層次,以求大而不感其空,小而不感其塞,創造出預期的格調和建築環境氣氛。 -
Examine the warm triangular awl composition and adopt mineral raw materials to compound, its physics performance and ceramic glaze medicine are self - same, utilize fire - resistant degree of it as melt temperature of pouring, in cooking, set according to the operation instructions free in examined warmly position in products, can examine to the actual temperature of the products ( can be observed with the naked eye ), especially push away and pull the kiln, tunnel kiln, drawer kiln observe temperature must spend products, general difference in temperature 5 - 10 degrees centigrade, please and soften some forms of contrasting according to the operation instructions, serial number before using
測溫三角錐成分採用礦物原料配製的,它的物理性能與陶瓷釉藥完全相同,利用它的耐火度作為熔倒溫度,在產品燒成中,按使用說明放在所測溫的位置,可測到產品的實際溫度(用肉眼可觀察到) ,尤其是推扳窯、隧道窯,抽屜窯內觀察溫度必用產品,一般溫差5 10 ,使用前請按使用說明、編號及軟化點對照表。 -
Supporting international exchanges and cooperation in earth environment monitoring, space environmental exploration, and studies of micro - gravity science, space physics and space astronomy, particularly international exchanges and cooperation in micro - gravity fluid physics, space materials science, space life science and space biology
支持開展地球環境監測、空間環境探測、微重力科學、空間物理和空間天文等研究領域的國際交流與合作,特別是微重力流體物理、空間材料科學、空間生命科學與空間生物技術等研究領域的國際交流與合作。 -
Jiulin wang ( materials physics and chemistry ) directed by naixin xu, jun yang and jingying xie due to its abundant resources, low toxicity and the highest charge capacity in all known cathode materials, elemental sulfur is a promising cathode material for the next generation of high - performance lithium batteries
單質硫因具有很高的理論能量密度、豐富的自然資源和無毒性等多種優勢,成為下一代鋰電池中替代licoo _ 2的首選正極材料之一。可是目前報道的li / s電池面臨著一系列嚴重的問題,包括活性物質利用率低,循環性能差等。 -
The research field of this thesis belongs to heat treatment in metal materials. ionic nitriding is a universal applied technique, which involves lots of marginal subjects such as discharge physics, vacuum, chemistry, electronics and materials science
該課題屬于金屬材料熱處理領域,離子氮化是一門綜合性的應用技術,涉及到了放電物理、真空、化學、電子學、材料科學等多門邊緣學科。 -
University research centres in relation to the faculty include the centre of optical science under the institute of optical science and technology, the institute of chinese medicine, the institute of mathematical sciences, the institute of theoretical physics, the hong kong institute of biotechnology limited, the hksar university grants committee area of excellence plant and fungal biotechnology centre, and the institute of science and technology, under which there are also the hong kong bioinformatics centre, and the materials science and technology research centre
除教學外,各學系教師亦致力研究工作,每個學系均設有研究院學部。與理學院有關的研究中心包括中醫中藥研究所、數學科學研究所、理論物理研究所和理工研究所及其屬下之香港生物信息中心和物料科技研究中心,皆為促進科際研究之機構。 -
It published many theses on lab education and management. it compiled all the teaching materials of physics electronics, circuit, automatic control theory, etc. for the laboratory education center ' s use
發表了多篇有關實驗室教學管理方面的論文。主編物理、電子、電路、自控原理等所育實驗教育中心使用的教材。 -
Use of statistical, quantum chemical, molecular dynamics, monte carlo, mesoscale and continuum methods to study fundamental physical phenomena encountered in the fields of computational physics, chemistry, mechanics, materials science, biology, and applied mathematics
運用統計、量子化學、分子動力學、蒙地卡羅、介觀尺度和連續介質方法,研究在計算物理、化學、力學、材料科學、生物學及應用數學中遇到的基本物理現象。 -
The colossal magnetoresistance ( cmr ) behaviors in perovskite - manganese oxides have attracted great attention due to both fundamental theory of condensed matter physics and potential applications of cmr materials in magnetic devices, e. g.,
鈣鈦礦結構錳氧化物材料所表現出的巨磁電阻效應( cmr ) ,在提高磁存儲密度以及磁傳感器等方面具有十分廣闊的應用前景。近幾年,受到全世界的廣泛關注。 -
Based on the magneto - physics theory, and by experiments and finite element method, the influences of stress on magnetic flux leakage ( mfl ) of ferromagnetic materials were studied, the mechanism of magnetic memory method were also discussed
以磁性物理學理論為指導,以試驗和有限元模擬為手段,主要研究了應力對試件表面泄漏磁場的影響,探索了鐵磁材料力?磁效應的物理機制。 -
The reali zation of the " mesoscopic physics " will lead the mankind to study and imitate the nature as the plants. then all kinds of production which mankind need, was produced with the air, water, inorganic materials in the nature, such as foodstuff, fibre, all sorts of micro - robots, computers
實現回歸的「介觀」將會引導人們採用技術手段師法自然,像天然植物那樣,把存在於自然界的空氣、水、無機物質自組裝成人類生活所需要的各種各樣的物品,如糧食、纖維、各種微型機器人、計算機等等。 -
The magnetism of the ferromagnetic materials ' surface may be studied by using the self - made installation and it has been applied to modern physics experiments
用自製裝置可研究磁性材料表面的磁性質,現此實驗已在近代物理實驗中應用。 -
This course covers sediments in the rock cycle, production of sediments at the earth ' s surface, physics and chemistry of sedimentary materials, and scale and geometry of near - surface sedimentary bodies, including aquifers
本課程涉及到巖石循環中的沉積物,在地球表面沉積物的產生,沉積物的物理和化學性質,和近地表沉積體的規模和形狀,包括含水層。 -
Investigations of quasi - one - dimensional nanomaterials were one of the research frontiers and focuses for the nanomaterials field in the recent ten years, which have intensively attracted researchers from physics, chemistry, materials, biology, and information subjects, as well as peers from industry
摘要準一維納米材料的研究是近十年來納米材料研究領域的前沿和熱點,吸引了物理、化學、材料、生物和信息等諸多領域的科研人員以及工業界的眾多有識之士的強烈關注。 -
Because the materials of solid have wide applications in actual life and producing, the study of eos on solids is meaningful in many basic sciences such as thermodynamics, statistical physics, physics of condensed matter, atomic and molecular physics, geophysics, planetary science, chemical physics, etc. in this paper, we discuss the fundamental theory of eos, the relationship between the eos of solids and the mutual effect potential, the theoretical models of eos of solids and some applicable semi - empirical, semi - theoretical eos of solids
固體材料在實際生活、生產中具有廣泛的應用性,所以,固體物態方程的研究對于熱力學、統計物理學、凝聚態物理、原子與分子物理、地球物理、天體物理、化學物理等基礎學科是有重要意義的。本論文論述了物態方程的基本理論,固體物態方程與粒子間相互作用勢的關系,固體物態方程的理論模型、近似關系和具有實用價值的半經驗、半理論的唯象固體態方程。 -
The combination of campus net and project learning will fully reflect the principle of opening trait, inquiry trait, combination trait of project learning, and will finish the studying task of project learning better. the topic research emphasize the developing of the ability and awareness, not the study of some specific knowledge. by building physics project learning net in campus net, the website specially for the service of the project learning, we can finish the basic process from collecting materials exchanging ideas and discussion, determining the topic, carrying out the research evaluating the result and so on, and we can also develop the ability of the students collecting materials. combination of being united using the internet, and we can also lay the solid foundation for the real future science research. the students can determine the topic in physics project learning on their own, and they can communicate with the teachers and classmates conveniently and solve the contradiction between the traditional class - teaching mode and the project learning
教育部採用的是狹義上的研究性學習,在高中物理進行研究性學習還處于探索階段,本文從目的、目標、特點、實施過程及案例做了階段性總結,它是實施素質教育,培養學生創新精神和實踐能力的一個重要方面,校園網與研究性課程的結合,將充分體現研究性課程學習的開放性、探究性、過程性、實踐性、合作性原則,較好地完成研究性課程的學習任務。課題研究主要著眼于這些能力與意識的培養,而不在於某項具體知識的學習。通過在校園網中建立「物理研究性課程學習網」這一專門為研究性課程學習服務的網站,能夠完成從收集資料、交流討論、確定課題、實施研究、成果評價等研究性課程學習的基本過程,並且能培養學生運用因特網收集資料、團結協作的能力,為將來開展真正的科學研究打好扎實的基礎。
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