synchronous frequency

简明释义

同步频率

英英释义

例句

1.The generator must be adjusted to match the synchronous frequency 同步频率 of the grid.

发电机必须调整以匹配电网的同步频率 同步频率。

2.The synchronous frequency 同步频率 of the clock is crucial for accurate timekeeping.

时钟的同步频率 同步频率对于准确计时至关重要。

3.In telecommunications, signals are transmitted at a synchronous frequency 同步频率 to maintain data integrity.

在电信中，信号以同步频率 同步频率传输，以保持数据完整性。

4.Engineers monitor the synchronous frequency 同步频率 during operation to prevent equipment failure.

工程师在操作期间监测同步频率 同步频率以防止设备故障。

5.The system operates at a synchronous frequency 同步频率 of 60 Hz to ensure proper timing.

该系统以60 Hz的同步频率 同步频率运行，以确保适当的时序。

作文

In the realm of physics and engineering, the concept of synchronous frequency plays a crucial role in understanding how systems interact with one another. Essentially, synchronous frequency refers to the frequency at which two or more oscillating systems operate in harmony. This idea is particularly significant in fields such as telecommunications, robotics, and even music, where synchronization can be the key to achieving optimal performance.To delve deeper into this concept, let’s explore its application in telecommunications. In a network, devices often need to communicate with one another to share data effectively. If these devices operate at different frequencies, the resulting communication can become chaotic and ineffective. However, when they operate at the same synchronous frequency, they can transmit and receive information seamlessly, leading to a more efficient exchange of data. This synchronization ensures that signals do not interfere with one another, thus enhancing the overall performance of the network.Moreover, the principle of synchronous frequency is also evident in robotics. Robots often require precise movements to accomplish tasks. When multiple robots work together, they must synchronize their actions to avoid collisions and ensure that they perform tasks in a coordinated manner. By programming the robots to operate at a synchronous frequency, engineers can ensure that they move in unison, which is essential for tasks such as assembly lines in manufacturing.Additionally, the concept of synchronous frequency extends beyond technology and engineering into the world of music. Musicians often strive for harmony, which can be understood as a form of synchronization. When different instruments play notes that resonate at a synchronous frequency, the result is a harmonious sound that is pleasing to the ears. This is why tuning instruments to the same pitch is vital before a performance; it ensures that all musicians are aligned in their frequencies, creating a cohesive musical experience.Understanding synchronous frequency is not just limited to technical fields; it also has broader implications in our daily lives. For instance, consider the importance of timing in group activities, such as team sports or dance performances. Participants must synchronize their movements to achieve a successful outcome. This synchronization can be likened to achieving a synchronous frequency in their actions, where each individual’s timing aligns with that of others.In conclusion, the concept of synchronous frequency is fundamental across various disciplines, from telecommunications and robotics to music and everyday activities. Recognizing the importance of synchronization can lead to improved efficiency, better communication, and enhanced collaboration. As we continue to advance technologically and socially, understanding and applying the principles of synchronous frequency will undoubtedly remain a vital aspect of our progress. Whether in engineering, music, or teamwork, achieving a state of synchronization can lead to remarkable outcomes, illustrating the power of harmony in both nature and human endeavors.

在物理和工程领域，synchronous frequency 概念在理解系统之间的相互作用中起着至关重要的作用。本质上，synchronous frequency 指的是两个或多个振荡系统和谐运作的频率。这个概念在电信、机器人甚至音乐等领域尤其重要，因为同步化可以成为实现最佳性能的关键。为了更深入地探讨这一概念，让我们看看它在电信中的应用。在网络中，设备通常需要彼此通信以有效共享数据。如果这些设备在不同的频率下工作，结果可能会变得混乱和无效。然而，当它们在相同的 synchronous frequency 下运行时，它们可以无缝地传输和接收信息，从而导致数据交换更加高效。这种同步确保信号不会相互干扰，从而增强了网络的整体性能。此外，synchronous frequency 原则在机器人技术中也很明显。机器人通常需要精确的运动来完成任务。当多个机器人一起工作时，它们必须同步其动作，以避免碰撞并确保它们以协调的方式执行任务。通过将机器人编程为在 synchronous frequency 下运行，工程师可以确保它们齐心协力，这对于制造业中的装配线等任务至关重要。此外，synchronous frequency 的概念不仅限于技术和工程，还延伸到音乐的世界。音乐家们常常追求和谐，这可以被理解为一种同步的形式。当不同的乐器演奏共鸣在 synchronous frequency 下的音符时，结果是悦耳动听的和声。这就是为什么在演出之前调音是至关重要的；它确保所有音乐家的频率保持一致，从而创造出一个统一的音乐体验。理解 synchronous frequency 不仅限于技术领域；它在我们日常生活中也有更广泛的意义。例如，考虑团队活动中时机的重要性，如团队运动或舞蹈表演。参与者必须同步他们的动作，以实现成功的结果。这种同步可以比作在他们的行动中实现 synchronous frequency，每个人的时机与他人的时机保持一致。总之，synchronous frequency 的概念在各个学科中都是基础，从电信和机器人到音乐和日常活动。认识到同步的重要性可以带来更高的效率、更好的沟通和更强的合作。随着我们在技术和社会上的不断进步，理解和应用 synchronous frequency 原则无疑将继续成为我们进步的重要方面。无论是在工程、音乐还是团队合作中，实现同步状态都可以带来显著的成果，展示了自然和人类努力中和谐的力量。