symmetrical powering

简明释义

对称供电

英英释义

例句

1.Using symmetrical powering allows for more efficient use of resources in renewable energy systems.

使用对称供电可以更有效地利用可再生能源系统中的资源。

2.In the design of the electric vehicle, symmetrical powering ensures balanced weight distribution.

在电动车的设计中，对称供电确保了均衡的重量分布。

3.The new drone features symmetrical powering that enhances its stability during flight.

这款新无人机具有对称供电的特点，提高了飞行中的稳定性。

4.The robotics team implemented symmetrical powering to improve the maneuverability of their robot.

机器人团队实施了对称供电以提高他们机器人的机动性。

5.The engineer explained how symmetrical powering can reduce energy loss in circuits.

工程师解释了如何通过对称供电减少电路中的能量损失。

作文

In the realm of engineering and design, the concept of symmetrical powering plays a crucial role in ensuring balance and efficiency. This term refers to the method of distributing power evenly across systems or components, which is essential for optimal performance. When we think about machines, vehicles, or even electrical circuits, the idea of symmetrical powering becomes increasingly important. It emphasizes the need for equilibrium, where power input and output are harmonized to prevent any potential damage or inefficiency.For instance, consider the design of an aircraft. The engines must provide thrust that is not only powerful but also evenly distributed. If one engine produces more power than the other, it can lead to an imbalance that affects the flight path and stability of the aircraft. Therefore, engineers meticulously calculate the necessary thrust required from each engine, embodying the principle of symmetrical powering. This ensures that the aircraft can maintain a straight and level flight, illustrating how vital this concept is in real-world applications.Moreover, symmetrical powering is not limited to aviation; it is equally significant in automotive design. Modern cars are equipped with sophisticated power distribution systems that ensure each wheel receives the appropriate amount of power. This is particularly evident in all-wheel-drive vehicles, where power is distributed symmetrically to enhance traction and control. The failure to achieve symmetrical powering can result in poor handling and increased wear on tires, ultimately compromising safety.In the field of electronics, symmetrical powering is crucial for circuit design. Many electronic devices rely on balanced power supply systems to function correctly. For example, audio amplifiers often require symmetrical power supplies to deliver clear and undistorted sound. When the power is not distributed evenly, it can lead to distortion and affect the overall performance of the device. Engineers must carefully design these systems to ensure that they adhere to the principles of symmetrical powering, allowing for high-quality output and longevity of the components.Furthermore, the concept extends beyond engineering to various aspects of life. In sports, athletes often strive for symmetrical powering in their training regimens. For instance, a runner may focus on developing both legs equally to improve speed and endurance. This balance is essential to avoid injuries and ensure peak performance. Similarly, in fitness, strength training routines often emphasize symmetrical development of muscle groups to promote overall body balance and functionality.In conclusion, symmetrical powering is a fundamental principle that transcends various fields, from engineering to everyday life. Its importance cannot be overstated, as it ensures balance, efficiency, and optimal performance across different systems. Whether in the design of aircraft, automobiles, electronic devices, or even in personal fitness, achieving symmetrical powering is key to success. By understanding and applying this concept, we can enhance the functionality and reliability of the systems we interact with daily, leading to safer and more efficient outcomes.

在工程和设计领域，对称供电的概念在确保平衡和效率方面发挥着至关重要的作用。这个术语指的是在系统或组件之间均匀分配电力的方法，这对于最佳性能至关重要。当我们考虑机器、车辆甚至电路时，对称供电的理念变得越来越重要。它强调了平衡的需要，其中电力输入和输出和谐一致，以防止任何潜在的损坏或低效。例如，考虑航空器的设计。发动机必须提供不仅强大而且均匀分布的推力。如果一个发动机产生的功率超过另一个，这可能导致失衡，从而影响飞机的飞行路径和稳定性。因此，工程师们会仔细计算每个发动机所需的推力，体现了对称供电的原则。这确保了飞机能够保持平稳飞行，说明了这一概念在实际应用中的重要性。此外，对称供电并不限于航空，它在汽车设计中同样重要。现代汽车配备了复杂的电力分配系统，确保每个车轮接收到适当的动力。这在全轮驱动车辆中尤其明显，动力被对称地分配以增强牵引力和控制力。未能实现对称供电可能导致操控不良和轮胎磨损加剧，最终影响安全性。在电子领域，对称供电对电路设计至关重要。许多电子设备依赖平衡的电源系统来正常工作。例如，音频放大器通常需要对称电源来提供清晰和无失真的声音。当电力未能均匀分配时，可能导致失真并影响设备的整体性能。工程师必须仔细设计这些系统，以确保它们遵循对称供电的原则，从而实现高质量的输出和组件的耐用性。此外，这一概念超越了工程，延伸到生活的各个方面。在运动中，运动员通常在训练计划中努力实现对称供电。例如，跑步者可能会专注于均衡发展双腿，以提高速度和耐力。这种平衡对于避免受伤和确保最佳表现至关重要。同样，在健身中，力量训练常常强调肌肉群的对称发展，以促进整体身体平衡和功能。总之，对称供电是一个基本原则，跨越各个领域，从工程到日常生活。其重要性不容小觑，因为它确保了不同系统的平衡、效率和最佳性能。无论是在飞机、汽车、电子设备的设计中，还是在个人健身中，实现对称供电是成功的关键。通过理解和应用这一概念，我们可以增强日常交互系统的功能性和可靠性，从而带来更安全、更高效的结果。