bifilar helix

简明释义

双股螺旋

英英释义

例句

1.The design of the antenna features a bifilar helix to enhance its signal reception.

该天线的设计采用了双线螺旋以增强信号接收能力。

2.Engineers often choose a bifilar helix for satellite communication systems.

工程师们通常为卫星通信系统选择双线螺旋。

3.The bifilar helix is known for its ability to produce circularly polarized waves.

双线螺旋以其产生圆极化波的能力而闻名。

4.In our experiment, we used a bifilar helix to study the effects of electromagnetic waves.

在我们的实验中，我们使用了双线螺旋来研究电磁波的影响。

5.A bifilar helix can be constructed using two parallel wires twisted together.

可以使用两根平行的线缠绕在一起构建双线螺旋。

作文

The concept of a bifilar helix is fascinating and holds significant importance in various fields, especially in the realm of physics and engineering. A bifilar helix refers to a type of coil that consists of two parallel wires twisted around a common axis, creating a helical structure. This design is not only aesthetically pleasing but also serves practical purposes in the transmission of electromagnetic waves. In electrical engineering, the application of a bifilar helix can be seen in antennas, where it is used to improve the efficiency of signal transmission. The dual wire structure allows for a more effective radiation pattern, which is crucial for communication systems. By utilizing a bifilar helix, engineers can enhance the performance of antennas, making them more suitable for various applications, from radio broadcasting to satellite communications.Moreover, the characteristics of a bifilar helix make it an excellent choice for inductors and transformers. In these devices, the helical shape helps in concentrating the magnetic field, thereby increasing the inductance. This is particularly important in power supply circuits where efficient energy transfer is essential. The design of a bifilar helix allows for compact configurations, making it easier to integrate into modern electronic devices without taking up excessive space.In addition to its electrical applications, the bifilar helix has intriguing implications in the study of DNA. The double helix structure of DNA is reminiscent of the bifilar helix in that it consists of two intertwined strands. This similarity provides a unique perspective on how biological systems utilize similar geometric principles found in engineered structures. Understanding the bifilar helix can lead to insights into the molecular mechanisms of life itself, bridging the gap between biology and engineering.Furthermore, the study of bifilar helix configurations can extend to the field of robotics and automation. As robots become more sophisticated, the need for efficient movement and control systems grows. The principles derived from bifilar helix designs can inform the development of better actuators and sensors, enhancing the capabilities of robotic systems. The ability to manipulate and control motion with precision is vital in applications ranging from manufacturing to healthcare.In conclusion, the bifilar helix is more than just a simple geometric shape; it represents a convergence of art and science. Its applications in electrical engineering, biology, and robotics highlight its versatility and importance in modern technology. As we continue to explore the possibilities of this intriguing structure, we may uncover new innovations that will shape the future of multiple disciplines. The study and understanding of the bifilar helix will undoubtedly inspire the next generation of engineers and scientists, encouraging them to think creatively about how to apply these principles in their own work.

“bifilar helix”（双线螺旋）的概念是迷人的，并在多个领域中具有重要意义，尤其是在物理和工程领域。bifilar helix指的是一种线圈，由两根平行的导线围绕一个共同的轴扭曲而成，形成螺旋结构。这种设计不仅美观，而且在电磁波的传输中具有实际用途。在电气工程中，bifilar helix的应用可以在天线中看到，它被用来提高信号传输的效率。双线结构允许更有效的辐射模式，这对于通信系统至关重要。通过利用bifilar helix，工程师可以增强天线的性能，使其更适合各种应用，从广播到卫星通信。此外，bifilar helix的特性使其成为电感器和变压器的优秀选择。在这些设备中，螺旋形状有助于集中磁场，从而增加电感。这在电源电路中特别重要，因为高效的能量传输至关重要。bifilar helix的设计允许紧凑的配置，使其更容易集成到现代电子设备中，而不会占用过多空间。除了电气应用外，bifilar helix在DNA研究中也有引人入胜的含义。DNA的双螺旋结构让人想起bifilar helix，因为它由两条交错的链组成。这种相似性提供了一个独特的视角，展示了生物系统如何利用与工程结构相似的几何原理。理解bifilar helix可以深入了解生命的分子机制，架起生物学与工程之间的桥梁。此外，bifilar helix配置的研究可以扩展到机器人和自动化领域。随着机器人变得越来越复杂，对高效运动和控制系统的需求也在增长。从bifilar helix设计中得出的原理可以为更好的执行器和传感器的发展提供信息，增强机器人系统的能力。精确操控运动的能力在从制造到医疗等应用中至关重要。总之，bifilar helix不仅仅是一个简单的几何形状；它代表了艺术与科学的交汇。它在电气工程、生物学和机器人中的应用突显了它在现代技术中的多样性和重要性。随着我们继续探索这一迷人结构的可能性，我们可能会发现新的创新，这些创新将塑造多个学科的未来。对bifilar helix的研究和理解无疑会激励下一代工程师和科学家，鼓励他们在自己的工作中创造性地应用这些原理。