IB物理 IB Physics 知识点讲解|5.4 Magnitude of magnetic force on a moving charge 42 0 40:12 App IB Physics IB物理 在物理中处理向量 - Manipulate vectors in physics 48 0 08:51 App IB物理 IB Physics 知识点讲解|5.4 Magnetic field by a solenoid or single loop 121 0 12:45 App IB Phy...
百度试题 结果1 题目2. Put a wire in a magnetic(magnet) field, the wire will move. 相关知识点: 试题来源: 解析 答案见上 反馈 收藏
In this study, the influence of the magnetic field due to a wire carrying electric current on the biomagnetic fluid flow in a three dimensional channel was... SM Mousavi,M Farhadi,K Sedighi - 《Applied Mathematical Modelling》 被引量: 3发表: 2016年 Forces on a current-carrying wire in ...
Near the Wire: The magnetic field is most intense close to the carrying conductor. Here, the field lines are densely packed, indicating a stronger magnetic effect. Away from the Wire: As one moves further from the wire, the magnetic field’s intensity diminishes. This decrease in strength is...
Force on a Wire in a Magnetic Field, Nature246 - Lowes - 1973 () Citation Context ...ength on the wire has the very simple form F = IB0 藛y (uniform external field). (7) c The expression (7) has been verified in a recent experiment Casperson [1]. See also a related ...
百度试题 结果1 题目When an electric current___through a wire, a magnetic field appears around 相关知识点: 试题来源: 解析 flows null 反馈 收藏
Force on a Wire in a Magnetic Field, Nature 246, 208 - Lowes - 1973 () Citation Context ... can be calculated via the interaction of the current and magnetization in the wire with only the fields present before the wire was added to the problem, as emphasized in sec. 35 of [18] ...
The strength of a magnetic field due to a current in a conductor can be greatly increased by forming a coil of the conductor. From Project Gutenberg A magnetic field may be produced through a coil of wire by winding it on the magnetic circuit shown in Fig. 8. From Project Gutenberg This...
Directly proportional to the number of turns of the loop. This means N is proportional to I This happens because the current in each turn would be in the same direction. Hence, the field due to these adds up. Inversely proportional to the radius of the loop. ...
When exposed to a magnetic field, diamagnetic materials create an induced magnetic field in the opposite direction, causing a repulsive effect. Therefore, copper will not stick to magnets, which is a crucial property utilized in various electrical and thermal applications due to its excellent ...