primary frequency

简明释义

主频率

英英释义

例句

1.In radio communications, the primary frequency 主要频率 determines the clarity of the audio.

在无线电通信中，主要频率主要频率决定了音频的清晰度。

2.Engineers must analyze the primary frequency 主要频率 to ensure the system operates efficiently.

工程师必须分析主要频率主要频率以确保系统高效运行。

3.Understanding the primary frequency 主要频率 helps in diagnosing equipment malfunctions.

理解主要频率主要频率有助于诊断设备故障。

4.The primary frequency 主要频率 of the oscillator must be calibrated for optimal performance.

振荡器的主要频率主要频率必须经过校准以实现最佳性能。

5.The primary frequency 主要频率 of the signal is crucial for accurate data transmission.

信号的主要频率主要频率对于准确的数据传输至关重要。

作文

In the realm of physics and engineering, the concept of primary frequency plays a pivotal role in understanding various phenomena. The primary frequency can be defined as the fundamental frequency at which a system oscillates or vibrates. This frequency is crucial because it determines how a system responds to external forces and influences its overall behavior. For instance, when considering musical instruments, each instrument has a specific primary frequency that defines its pitch. A piano, for example, produces sound waves at particular frequencies that correspond to the keys being pressed. The primary frequency of a note dictates how we perceive its tone and quality.In the field of electronics, the primary frequency is equally significant, particularly in the design and operation of circuits. Many electronic devices rely on oscillators that produce signals at a primary frequency. This frequency is essential for the function of radios, televisions, and other communication devices. When engineers design these systems, they must carefully consider the primary frequency to ensure optimal performance. If the frequency is too high or too low, the device may not operate correctly, leading to poor signal quality or complete failure.Moreover, in the context of mechanical systems, the primary frequency is vital for understanding vibrations. Engineers often analyze the primary frequency of structures like bridges and buildings to prevent resonance, which can cause catastrophic failures. When external forces, such as wind or earthquakes, match the primary frequency of a structure, it can lead to excessive oscillations and potential collapse. Therefore, knowing the primary frequency allows engineers to design safer and more resilient structures.In addition to its applications in engineering and physics, the primary frequency is also relevant in fields such as biology and medicine. For example, researchers have discovered that certain biological processes, such as heartbeats, can be analyzed using the concept of primary frequency. The heart has a primary frequency that corresponds to the number of beats per minute. Monitoring this frequency can provide valuable insights into a person's health and well-being. Abnormalities in the primary frequency of heartbeats can indicate underlying medical conditions, prompting further investigation and treatment.In summary, the term primary frequency encompasses a wide range of applications across various disciplines. From music to engineering, and even biology, understanding the primary frequency is essential for analyzing and predicting the behavior of different systems. As technology continues to advance, the importance of accurately determining the primary frequency will only increase, highlighting the need for ongoing research and education in this fundamental concept. By grasping the significance of the primary frequency, we can enhance our understanding of the world around us and improve the technologies we rely on every day.

在物理和工程领域，primary frequency的概念在理解各种现象中发挥着关键作用。primary frequency可以定义为一个系统振荡或振动的基本频率。这个频率至关重要，因为它决定了一个系统如何响应外部力量，并影响其整体行为。例如，在考虑乐器时，每种乐器都有一个特定的primary frequency，这定义了其音调。例如，钢琴在按下特定琴键时会产生与之对应的特定频率的声波。某个音符的primary frequency决定了我们如何感知其音色和质量。在电子学领域，primary frequency同样重要，特别是在电路的设计和操作中。许多电子设备依赖于以primary frequency产生信号的振荡器。这一频率对于收音机、电视和其他通信设备的功能至关重要。当工程师设计这些系统时，他们必须仔细考虑primary frequency以确保最佳性能。如果频率过高或过低，设备可能无法正常工作，导致信号质量差或完全失效。此外，在机械系统的背景下，primary frequency对于理解振动至关重要。工程师经常分析桥梁和建筑物等结构的primary frequency以防止共振，这可能导致灾难性的故障。当外部力量（如风或地震）与结构的primary frequency相匹配时，它可能导致过度振荡并潜在崩溃。因此，了解primary frequency使工程师能够设计更安全、更具韧性的结构。除了在工程和物理学中的应用外，primary frequency在生物学和医学等领域也很相关。例如，研究人员发现，某些生物过程（如心跳）可以使用primary frequency的概念进行分析。心脏有一个与每分钟的心跳次数相对应的primary frequency。监测这一频率可以提供有关一个人健康状况的宝贵见解。心跳的primary frequency异常可能表明潜在的医疗状况，促使进一步调查和治疗。总之，primary frequency这一术语涵盖了各个学科中广泛的应用。从音乐到工程，甚至生物学，理解primary frequency对于分析和预测不同系统的行为至关重要。随着技术的不断进步，准确确定primary frequency的重要性只会增加，这突显了在这一基本概念上进行持续研究和教育的必要性。通过掌握primary frequency的重要性，我们可以增强对周围世界的理解，并改善我们每天依赖的技术。