电学和磁学

  • 网络Electricity and Magnetism
电学和磁学电学和磁学
  1. 事实上,物理C考试是由两个独立部分组成,一部分是力学,另一部分是电学和磁学(即电磁学)。

    The physics C Exam is actually composed of two separate exams : one in Mechanics and one in Electricity and Magnetism ( E & M ) .

  2. 所有麻省理工学院的本科生都要学习力学、电学和磁学。

    All undergraduate students at MIT study mechanics , electricity and magnetism .

  3. 碳纳米管(CNT)是纳米管状材料,独特的结构使其具有优异的力学、电学和磁学性能等,在复合材料中受到广泛的关注。

    Carbon nanotubes ( CNT ) are the nano-tube materials with the remarkable mechanical properties , electrical properties and magnetic properties owing to the unique structure . So the CNT in the composite was focused by many researchers .

  4. 由于具有4f电子,稀土材料呈现出独特的光学、电学和磁学性能,得到了广泛的研究和应用。氧化锌和硫化镉作为应用广泛的宽带隙半导体,对其研究一直备受关注。

    Rare earth materials have attracted intensive research interest because of their novel electronic , optical , and chemical characteristics resulting from the 4f electrons . ZnO and CdS are important classical semiconductors with wide band gap , which have been widely applied and received intense attention .

  5. 粒径均一、形貌特殊的单分散赤铁矿(a-Fe2O3)具有优良催化、电学和磁学等性能,使其在光、电、磁、催化以及医药等领域广泛应用。

    Monodisperse hematite (α - Fe203 ) with special morphologies and uniform crystal size has shown extensive applications in the fields such as catalyst , photocatalyst , battery , magnetic and medical materials due to their excellent optical , magnetic , electronic and catalytic properties .

  6. 石墨烯纳米带的电学和磁学性能调控的计算研究

    Computational Studies on Tuning Electronic and Magnetic Properties of Graphene Nanoribbons

  7. GB3102.5-1993电学和磁学的量和单位

    Quantities and units of electricity and magnetism

  8. 磁性掺杂的二氧化钛一维纳米结构的电学和磁学性质正在深入研究中。

    Moreover , research on electrical transport and magnetic properties of Magnetic doping TiO2 nanowires is still going on .

  9. 低维纳米超结构材料由于比普通纳米单体材料具有更好的光学、电学和磁学等性能,因而是当前材料科学研究的热点之一。

    Low-dimensional hierarchical and heterogenous nanostructure material is one of the research focuses of materials science currently because of its special function in optics , electricity and magnetic .

  10. 过渡金属纳米晶具有独特的电学和磁学等特性,并具有很强的结构自组装行为,有望在未来应用于构筑各种纳米电子器件。

    The nanocrystallines of transitional metals have the unique electronic and magnetic properties . They also exhibit the behavior of strong self-assembly into ordered structures . Therefore , they are promising for applications in future electronic devices .

  11. 稀土元素作为一类特殊的无机离子,具有优良的光学、电学和磁学性质,配位数高且多变,使得具有光、电、磁功能的稀土超分子配合物的组装成为一个具有挑战性的课题。

    Rare earth elements are a group of special inorganic ions with good luminescent , electronic and magnetic properties , and the assembling of rare earth supramolecular complexes with specific spectroscopic , electric and magnetic properties is challenging for their high and variable coordination number .

  12. 噻吩及其衍生物是一类具有多种优越性能的化合物,如光学、电学和磁学性能等,且很多的噻吩及其衍生物已经应用于新型的工程材料中。

    Thiophene and its derivatives are a class of compounds with a variety of superior performance , such as optical , electrical , and magnetic properties , etc , and many of the thiophene and its derivatives have been used in the engineering of new materials .

  13. 由于这种薄膜具有优异的电学性质和磁学性质,引起了研究者广泛的关注。

    It is of increasing interest due to its wide range of electrical transport properties and magnetic properties .

  14. 由于碳纳米管其独特的物理结构和其独特的热学、力学、电学、光学和磁学等物理化学性能,因此是目前研究最多应用最广的碳纳米材料之一。

    Due to its unique physical structure and its unique thermal , mechanical , electrical , optical and magnetic and other physical and chemical properties , therefore the most studied is the most widely used carbon nano-materials .

  15. 有机导电聚合物是一种新型的功能材料,不但具有丰富的电学、光学和磁学性质,而且具有低成本、易加工、有柔性等特点。

    Organic semiconducting polymers are a new type of functional materials . They not only have abundant properties in electronics , optics and magnetism , but also have many advantages such as low cost , easy processing , flexibility , and so on .