angular phasing

简明释义

1. 角相位; 2. 相位角;

英英释义

例句

1.The engineers discussed the importance of angular phasing in optimizing the performance of the robotic arm.

工程师们讨论了在优化机械臂性能时，角相位的重要性。

2.The angular phasing of the signals was off, causing a delay in communication between devices.

信号的角相位不正确，导致设备之间的通信延迟。

3.The concept of angular phasing is crucial for understanding wave interference in physics.

在物理学中，角相位的概念对理解波干涉至关重要。

4.In the simulation, we adjusted the angular phasing to achieve better synchronization between the two motors.

在模拟中，我们调整了角相位以实现两个电机之间更好的同步。

5.By analyzing the angular phasing, we were able to identify the source of the vibration in the machinery.

通过分析角相位，我们能够找出机械中振动的来源。

作文

In the world of physics and engineering, the concept of angular phasing plays a crucial role in understanding the behavior of rotating systems. At its core, angular phasing refers to the relative positioning of different components in a system that rotates around a central axis. This concept is especially important in applications such as motors, turbines, and even in the design of certain types of machinery. By controlling the angular phasing of various parts, engineers can optimize performance, reduce wear and tear, and improve efficiency.To better understand angular phasing, consider the example of a multi-blade turbine. Each blade must be positioned at a specific angle relative to the others to ensure smooth operation. If the angular phasing is off, it can lead to vibrations, increased drag, and ultimately, mechanical failure. Therefore, precise calculations and adjustments are necessary during the design and assembly phases to achieve the ideal angular phasing.Moreover, angular phasing is not limited to mechanical systems; it also finds applications in the field of signal processing. In telecommunications, for instance, signals from multiple antennas can be combined to enhance reception quality. The angular phasing of these antennas determines how the signals interact with each other, which can either amplify or cancel out the desired signal. Properly aligning the angular phasing ensures that the system functions optimally, providing clearer and more reliable communication.The importance of angular phasing extends to various fields, including robotics and aerospace. In robotics, the synchronization of motors in robotic arms is essential for accurate movements. Engineers must carefully manage the angular phasing of each motor to ensure that the arm moves smoothly and precisely. Similarly, in aerospace engineering, the angular phasing of control surfaces on an aircraft can significantly affect its stability and maneuverability. Misalignment can lead to dangerous situations, making it critical to adhere to strict guidelines regarding angular phasing during the design and testing processes.In conclusion, angular phasing is a fundamental concept that underpins many technological advancements. Its applications span across various industries, highlighting its significance in enhancing performance and reliability. As technology continues to evolve, the understanding and application of angular phasing will undoubtedly play a vital role in shaping the future of engineering and design. By mastering the principles associated with angular phasing, engineers and scientists can develop more efficient systems, ensuring that machines operate at their best and that our technological advancements continue to thrive.

在物理和工程的世界中，角相位的概念在理解旋转系统的行为方面发挥着至关重要的作用。角相位的核心是指在围绕中心轴旋转的系统中，不同组件的相对位置。这个概念在电动机、涡轮机甚至某些类型机械的设计中尤其重要。通过控制各个部分的角相位，工程师可以优化性能，减少磨损，提高效率。为了更好地理解角相位，可以考虑多叶涡轮的例子。每个叶片必须相对于其他叶片以特定角度定位，以确保平稳运行。如果角相位不正确，可能会导致振动、增加阻力，最终导致机械故障。因此，在设计和组装阶段，需要进行精确的计算和调整，以实现理想的角相位。此外，角相位不仅限于机械系统；它在信号处理领域也有应用。例如，在电信中，来自多个天线的信号可以结合以增强接收质量。这些天线的角相位决定了信号之间的相互作用，这可能会放大或抵消所需的信号。正确对齐角相位可以确保系统最佳运行，从而提供更清晰、更可靠的通信。角相位的重要性扩展到各种领域，包括机器人技术和航空航天。在机器人技术中，机器人手臂中电动机的同步对于准确移动至关重要。工程师必须仔细管理每个电动机的角相位，以确保手臂平稳而精确地移动。同样，在航空航天工程中，飞机上控制面的位置的角相位会显著影响其稳定性和机动性。未对齐可能导致危险情况，因此在设计和测试过程中严格遵守有关角相位的指导方针至关重要。总之，角相位是支撑许多技术进步的基本概念。它的应用跨越多个行业，突显了其在提高性能和可靠性方面的重要性。随着技术的不断发展，对角相位的理解和应用无疑将在塑造工程和设计的未来中发挥重要作用。通过掌握与角相位相关的原理，工程师和科学家可以开发出更高效的系统，确保机器以最佳状态运行，使我们的技术进步持续蓬勃发展。