In this paper, the physical meanings of the induction and the intensity in magnetic medium has been discussed from magnetic charge and molecular current point of view.
本文根据磁荷观点和分子电流观点讨论磁介质中的磁感应强度和磁场强度的物理意义。
The magnetic induction intensity distribution B is obtained by solving its magnetic vector potential A distribution of current-carrying circular circuit in anisotropic medium.
提出一种求解各向异性磁介质中电流磁场的新方法,通过求解各向异性磁介质中圆电流环的磁矢势A分布,求出其磁感应强度B分布。
The magnetic induction intensity at meniscus was about 10% of that maximum value at mould middle section.
钢液弯月面处的磁感应强度是结晶器中心最大值的10%左右。
The paper introduces the main factors that affect this transmission:magnetic-field intensity of the magnet couple, efficient area of the magnetic induction, distance of the magnet couple.
介绍了影响该传动方式的动力传动的主要因素:磁对的磁场强度、磁感的有效面积、磁对之间的间距。
The magnetic induction intensity at the center of elliptic current ring is derived based on the Biot-Savart law and elliptic parameter equation intensity.
运用毕奥萨伐尔定律和椭圆参数方程,计算出椭圆环电流中心的磁感强度。
The study has developed a kind of small-sized roller test unit of high magnetic induction intensity for magnetic separation by the technology of permanent magnetism and high magnetic field intensity.
本项研究采用永磁强磁场技术研制出了具有高磁感应强度的小型磁分离试验装置。
A coil measurement system has been designed to measure the magnetic induction intensity of the weak magnetic field generated by hypervelocity impact.
为了测量超高速碰撞过程中产生瞬态弱磁场的磁感应强度,设计了弱磁场测量的线圈系统。
The concept of magnetic field uniformity is introduced. And the magnetic field intensity of super-magnetostrictive transducer can be used to denote relevant magnetic induction strength is discussed.
给出超磁致伸缩换能器驱动磁场均匀性概念后,论述了超磁致伸缩换能器驱动磁场宜用电磁感应强度表示。
Magnetic induction intensity, magnetic flux, Gauss theorem of magnetic field, Biot-Savar law, magnetic field of moved charge.
磁感应强度,磁通量,磁场的高斯定理。毕?萨定律,运动电荷产生的磁场。
The current intensity of variations will produce self-induction when a closed coil moves in magnetic field. Must be attended to the contribution of the current by self-induction to total current.
闭合线圈在磁场中运动,线圈中的电流变化将产生自感,自感电流对总感应电流的贡献是不容忽视的。
The magnetic induction intensity of fluid gap was measured without MR fluid in the damper. The nicety of magnetic FEM method was verified by comparing the results of FEM method and experiment.
通过试验,测量了该阻尼器在未装入流体的情况下流体通道间隙处的磁感应强度大小,并与有限元分析结果进行比较,结果验证了磁场有限元分析的准确性。
The magnetic induction intensity of fluid gap was measured without MR fluid in the damper. The nicety of magnetic FEM method was verified by comparing the results of FEM method and experiment.
通过试验,测量了该阻尼器在未装入流体的情况下流体通道间隙处的磁感应强度大小,并与有限元分析结果进行比较,结果验证了磁场有限元分析的准确性。
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