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相关概念视频

Solenoids01:17

Solenoids

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A solenoid is a conducting wire coated with an insulating material, wound tightly in the form of a helical coil. The magnetic field for a solenoid is the vector sum of the magnetic field due to its individual turns. For an ideal solenoid, the magnetic field inside is almost uniform and parallel to the solenoid axis, while the magnetic field outside the solenoid is nearly zero.
Each turn in a solenoid can be approximated as a circular current carrying coil that generates a dipole moment. The...
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Magnetic Field of a Solenoid01:18

Magnetic Field of a Solenoid

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A solenoid is a conducting wire coated with an insulating material, wound tightly in the form of a helical coil. The magnetic field due to a solenoid is the vector sum of the magnetic fields due to its individual turns. Therefore, for an ideal solenoid, the magnetic field within the solenoid is directly proportional to the number of turns per unit length and the current. Conversely, the magnetic field outside the solenoid is zero.
Consider a solenoid with 100 turns wrapped around a cylinder of...
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Cable: Problem Solving01:29

Cable: Problem Solving

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When dealing with a cable that is fixed to two supports and subjected to uniform loading, it is crucial to determine the maximum tension in the cable. This process can be broken down into several key steps, as outlined below:
299
Energy Stored In A Coaxial Cable01:31

Energy Stored In A Coaxial Cable

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A coaxial cable consists of a central copper conductor used for transmitting signals, followed by an insulator shield, a metallic braided mesh that prevents signal interference, and a plastic layer that encases the entire assembly.
In the simplest form, a coaxial cable can be represented by two long hollow concentric cylinders in which the current flows in opposite directions. The magnetic field inside and outside the coaxial cable is determined by using Ampère's law. The magnetic...
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Calculation of Self-inductance01:29

Calculation of Self-inductance

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The self-inductance of a circuit, often simply called the inductance, is a purely geometric factor that depends only on the circuit component's structure. More specifically, it depends on the shape and size of the component that lets the flux pass through it, thus inducing an electric field that opposes any current passing through it.
Since the effect of the induced electric field and the back EMF generated depends on the rate of change of current and the self-inductance, the inductance...
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Magnetic Force On Current-Carrying Wires: Example01:22

Magnetic Force On Current-Carrying Wires: Example

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In a magnetic field, moving charges encounter a force. If a wire contains these moving charges, i.e., if the wire is carrying a current, then a force acts on the wire as well. Consider a pair of flexible leads holding a wire that is 40 cm long and 10 g in weight in a horizontal position. The wire is placed in a constant magnetic field of 0.40 T, as shown in Figure 1(a). Determine the magnitude and direction of the current flowing in the wire needed to remove the tension in the supporting leads.
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相关实验视频

Updated: May 24, 2025

Electric and Magnetic Field Devices for Stimulation of Biological Tissues
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Electric and Magnetic Field Devices for Stimulation of Biological Tissues

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浮式电磁线缆陷 浮式电磁线缆陷

Roman Venegas, Edith Touchet-Valle, Joseph Busher

    Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
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    概括
    此摘要是机器生成的。

    新的浮式电缆陷有效地抑制MRI射频传输线路中的常态电流. 这项创新通过减少信号损失和防止射频烧伤来提高信号质量和患者安全.

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    A Flow-through Exposure System for Evaluating Suspended Sediments Effects on Aquatic Life
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    MRM Microcoil Performance Calibration and Usage Demonstrated on Medicago truncatula Roots at 22 T
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    相关实验视频

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    Electric and Magnetic Field Devices for Stimulation of Biological Tissues
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    A Flow-through Exposure System for Evaluating Suspended Sediments Effects on Aquatic Life
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    科学领域:

    • 医疗成像医学成像
    • 电气工程 电气工程
    • 无线电频率工程 无线电频率工程

    背景情况:

    • 像同轴电缆这样的传输线路对于MRI系统至关重要.
    • 射频传输线路中的通用模式电缆电流降低信号质量,并构成患者安全风险 (射频烧伤).
    • 现有的电缆陷可能难以实施.

    研究的目的:

    • 开发一个改进的浮式电缆陷用于MRI传输线路.
    • 为了有效地抑制常态电缆电流.
    • 为了提高应用和施工的方便性.

    主要方法:

    • 创建了一个新的浮式电缆陷设计,利用三个LC电路.
    • 陷是使用定制的3D打印模具构建的,用于简单的应用.
    • 对127 MHz的减弱性能进行了评估.

    主要成果:

    • 开发的浮式电缆陷在127MHz时实现了-24分贝 (dB) 的衰减.
    • 3D打印的前者便于轻松构建和连接RG-58同轴电缆.
    • 陷有效地抑制了常态电流.

    结论:

    • 新的浮式电缆陷设计成功地减轻了MRI射频传输中的常态电流.
    • 这一创新为MRI程序提供了更好的信号完整性和患者安全.
    • 该设计的易于构建和应用,代表了实际的进步.