self excitation

简明释义

自激

英英释义

例句

1.The concept of self excitation 自激励 is crucial in understanding the behavior of certain dynamical systems.

自激励的概念在理解某些动态系统的行为时至关重要。

2.In electrical engineering, self excitation 自激励 can occur in generators when they produce their own magnetic field.

在电气工程中，发电机在产生自身磁场时可能会发生自激励。

3.The self excitation 自激励 phenomenon can lead to instability in feedback systems if not properly controlled.

如果没有适当控制，自激励现象可能导致反馈系统的不稳定。

4.A common example of self excitation 自激励 is seen in the operation of certain types of oscillators.

某些类型振荡器的操作中常见自激励的例子。

5.Researchers are studying self excitation 自激励 in neural networks to improve machine learning algorithms.

研究人员正在研究神经网络中的自激励，以改善机器学习算法。

作文

In the realm of physics and engineering, the concept of self excitation refers to a process where a system generates its own energy or power without external influence. This phenomenon can be observed in various systems, such as electrical generators, oscillators, and even biological processes. Understanding self excitation is crucial for optimizing performance and efficiency in these systems. For instance, in electrical engineering, a generator may use feedback from its own output to maintain voltage levels and ensure consistent power generation. This internal feedback mechanism exemplifies how self excitation can enhance stability and reliability.Moreover, self excitation plays a significant role in the field of psychology, particularly in understanding motivation and behavior. Individuals often experience self excitation when they engage in activities that stimulate their interest or passion. This intrinsic motivation can lead to heightened levels of creativity and productivity. For example, an artist may find themselves in a state of flow while painting, driven by their own enthusiasm and inspiration rather than external rewards. This form of self excitation can be vital for personal growth and fulfillment.In addition to its applications in science and psychology, self excitation can also be observed in social contexts. Group dynamics often exhibit self excitation when collective enthusiasm builds momentum. A team working on a project may inspire one another, creating a positive feedback loop that enhances their collective performance. This phenomenon highlights the importance of fostering an environment where self excitation can thrive, as it leads to greater collaboration and innovation.Furthermore, the implications of self excitation extend to technology and artificial intelligence. In machine learning, algorithms can be designed to adapt and improve based on their own performance metrics. This adaptive learning process can be seen as a form of self excitation, where the system evolves independently to achieve better outcomes. As technology advances, understanding this concept will be essential for developing intelligent systems that can operate autonomously and efficiently.In conclusion, self excitation is a multifaceted concept that spans across various disciplines, from engineering to psychology and beyond. Its ability to generate energy, foster motivation, enhance group dynamics, and drive technological innovation makes it a critical area of study. By exploring the principles of self excitation, we can unlock new potential in both our personal and professional lives, leading to more effective systems and enriched experiences. The exploration of self excitation not only broadens our understanding of complex systems but also encourages us to harness our inner drive to achieve greatness in whatever we pursue.

在物理和工程领域中，自激励的概念指的是一个系统在没有外部影响的情况下生成自身能量或动力的过程。这种现象可以在各种系统中观察到，例如电力发电机、振荡器甚至生物过程。理解自激励对于优化这些系统的性能和效率至关重要。例如，在电气工程中，发电机可能会利用自身输出的反馈来维持电压水平，确保稳定的电力生成。这种内部反馈机制体现了自激励如何增强稳定性和可靠性。此外，自激励在心理学领域也发挥着重要作用，特别是在理解动机和行为方面。当个人参与刺激他们兴趣或激情的活动时，往往会体验到自激励。这种内在动机可以导致创造力和生产力的提高。例如，一位艺术家在绘画时可能会感到处于一种流畅状态，受到自身热情和灵感的驱动，而不是外部奖励。这种形式的自激励对个人成长和满足感至关重要。除了在科学和心理学中的应用外，自激励还可以在社会背景中观察到。当集体热情积聚势头时，群体动态往往表现出自激励。一支团队在项目上工作时，可能会相互激励，形成积极的反馈循环，从而增强他们的集体表现。这一现象突显了营造一个能够让自激励蓬勃发展的环境的重要性，因为它会导致更大的合作和创新。此外，自激励的影响还扩展到技术和人工智能领域。在机器学习中，算法可以设计成根据自身的性能指标进行调整和改进。这种自适应学习过程可以视为一种自激励，其中系统独立演变以实现更好的结果。随着技术的发展，理解这一概念对于开发能够自主高效运行的智能系统至关重要。总之，自激励是一个跨越多个学科的多面概念，从工程到心理学及其他领域。它产生能量、促进动机、增强群体动态和推动技术创新的能力使其成为一个关键的研究领域。通过探讨自激励的原理，我们可以在个人和职业生活中解锁新的潜力，导致更有效的系统和丰富的体验。对自激励的探索不仅拓宽了我们对复杂系统的理解，还鼓励我们利用内在动力在追求的任何领域取得伟大成就。