磁感应效应,magnetic induction effect
1)magnetic induction effect磁感应效应
1.Influence of test frequency and magnetic field on themagnetic induction effect of amorphous alloy ribbons;频率和磁场对非晶薄带的磁感应效应的影响
2.Study onmagnetic induction effect of Fe_(78)Si_9B_(13) amorphous alloy ribbons铁硅硼非晶薄带的磁感应效应研究
3.The influences of frequency,magnetic field and annealing process on themagnetic induction effect and the change ofmagnetic induction effect of Fe73.5B9非晶薄带的磁感应效应及磁感应效应变化幅度的影响。
英文短句/例句
1.Study on Magnetic Induction Effect of FeCuNbSiB Amorphous Alloy RibbonsFeCuNbSiB非晶薄带磁感应效应研究
2.Influence of test frequency and magnetic field on the magnetic induction effect of amorphous alloy ribbons;频率和磁场对非晶薄带的磁感应效应的影响
3.Influence of Current Limiting Resistance on the Magnetic Induction Effect of FeSiB Amorphous Ribbons限流电阻对FeSiB非晶薄带磁感应效应的影响
4.Influence of Annealing Process on the Magnetic Induction Effect of Fe-based Amorphous Alloy Ribbons退火工艺对铁基非晶薄带磁感应效应的影响
5.Heating Effect of Ni-Cu Thermoseed Used in Magnetic Inductive Therapy and Effect of Au Coating磁感应治疗用Ni-Cu合金热籽的磁热效应
6.Stress-induction EMF effects and associated principle of magnetic moment deflection for steel tube钢管应力-感应电动势效应及其磁矩偏转原理
7.Novel Micro-magnetism Detection Based on Grant Magneto-impedance Effect of Amorphous Wire and Resonant Circuit基于巨磁阻抗效应的新型微磁近感探测技术
8.Research on Micro-magnetic Sensor Based on Giant Magneto-impedance in Amorphous Wire基于巨磁阻抗效应的微型磁传感器技术研究
9.Fiber Bragg Grating Current Sensor Based on Magnetostrictive Effect基于磁致伸缩效应的FBG电流传感器
10.Study of Main Flux Saturation Influence in Speed Estimating of Induction Machine;磁饱和效应对感应电动机转速辨识影响的研究
11.Research of Giant Magnetoimpedance Effect Based in Current Sensor;巨磁阻抗(GMI)效应在电流传感器上的应用研究
12.An improved ensemble model on current induced magnetic switching effect电流感应磁化翻转效应的改进的系综模型
13.induced magnet type cartridge感应磁铁式盒式磁盘
14.normal magnetic flux density正常磁感应[磁通]密度
15.Design of Differential Stress Sensor with Six Magnetic Pole Based on Counter Magnetostriction Effect六磁极差动式逆磁致伸缩效应应力传感器的设计
16.The Influence of Doping and Magnetic Anisotropy on GMI Effect in Fe-based Films;掺杂及磁场感应各向异性对Fe基薄膜巨磁阻抗效应的影响
17.Magnetocaloric Effect of Ni-Cu Thermoseed Used in Magnetic Inductive Therapy and Effect of Au Coating on the Heating Efficiency磁感应治疗用Ni-Cu合金铁磁热籽的磁热效应及Au镀层对发热效率的影响
18.Study on GMI Effect in Amorphous Alloys and Novel Weak Magnetic Field Sensor;非晶态合金GMI效应及新型弱磁场传感器研究
相关短句/例句
Induced magnetic effect感应磁效应
3)magnet-inductive effect磁电感效应
1.Influences of AC frequency,magnetic density and ribbon length on themagnet-inductive effect and the rangeability ofmagnet-inductive effect of Fe73.5B9非晶薄带的磁电感效应及磁电感效应变化幅度的影响。
4)electromagnetic influence effect电磁感应效应
1.Theelectromagnetic influence effect of material for amorphous alloy and expression on various magnetic field is presented.描述了非晶态合金材料的电磁感应效应并推出反映被测磁场变化的输出电压关系式。
5)seismo magnetic effect地震感应磁效应
6)induced effect感应效应
延伸阅读
磁感应强度磁感应强度magneticinduction描述磁场强弱和方向的基本物理量。是矢量,常用符号B表示。点电荷q以速度v在磁场中运动时受到力f的作用。在磁场给定的条件下,f的大小与电荷运动的方向有关。当v沿某个特殊方向或与之反向时,受力为零;当v与此特殊方向垂直时受力最大,为fm。fm与|q|及v成正比,比值与运动电荷无关,反映磁场本身的性质,定义为磁感应强度的大小,即。B的方向定义为:由正电荷所受最大力fm的方向转向电荷运动方向v时,右手螺旋前进的方向。定义了B之后,运动电荷在磁场B中所受的力可表为f=qv×B,此即洛伦兹力公式。除利用洛伦兹力定义B外,也可以根据电流元Idl在磁场中所受安培力df=Idl×B来定义B,或根据磁矩m在磁场中所受力矩M=m×B来定义B,三种定义,方法雷同,完全等价。在国际单位制(SI)中,磁感应强度的单位是特斯拉,简称特(T)。在高斯单位制中,磁感应强度的单位是高斯(Gs),1T=104Gs。由于历史的原因,与电场强度E对应的描述磁场的基本物理量被称为磁感应强度B,而另一辅助量却被称为磁场强度H,名实不符,容易混淆。通常所谓磁场,均指的是B。