excitor

简明释义

英[ɪkˈsaɪtə(r)]美[ɪkˈsaɪtər]

n. 刺激神经（等于 exciter）

英英释义

单词用法

同义词

反义词

例句

1.SZG G series vibration conveyor consists of vibration source- vibration motor or vibration excitor, supporting body , vibration damper, load-supporting base and other accessories.

酂SZG系列振动输送机一般是由振源——振动电机或激振器，承载体，减震支撑，承载基础及相关配套附件等组成。

2.SZG G series vibration conveyor consists of vibration source- vibration motor or vibration excitor, supporting body , vibration damper, load-supporting base and other accessories.

酂SZG系列振动输送机一般是由振源——振动电机或激振器，承载体，减震支撑，承载基础及相关配套附件等组成。

3.Regarding bad condition of oil, carbon powder and dust enter into Generator stator and dust enter excitor stator and high temperature of the excitor stator coil.

针对发电机静子漏进油、碳粉、尘土，励磁机静子漏进尘土等物，励磁机静子线圈温度高等不良现象，提出改进方案，实施后效果良好。

4.The excitor is essential for initiating the reaction in the chemical process.

在化学过程中，激发器对于启动反应至关重要。

5.In electronics, an excitor helps to generate the necessary signals for device operation.

在电子学中，激发器有助于产生设备运行所需的信号。

6.The research team developed a new type of excitor that improves energy efficiency.

研究团队开发了一种新型的激发器，提高了能效。

7.An excitor can be used in various applications, including telecommunications and broadcasting.

激发器可以用于各种应用，包括电信和广播。

8.The excitor in this model is designed to enhance the output signal strength.

该模型中的激发器旨在增强输出信号强度。

作文

In the realm of physics and engineering, the term excitor refers to a device or mechanism that generates excitation in a system. This excitation can lead to various phenomena, such as the stimulation of particles, the initiation of waves, or the activation of certain processes. Understanding the function of an excitor is crucial in many fields, including telecommunications, electronics, and even biology. For instance, in the context of telecommunications, an excitor may be used to modulate signals, allowing for the transmission of data over long distances. This modulation is essential for ensuring that information can be sent and received accurately, making excitors vital components in communication systems. Moreover, in the field of electronics, excitors play a significant role in circuits where they help to trigger the operation of other components. For example, in a simple circuit, an excitor might be used to turn on a light bulb or activate a motor. The ability of an excitor to control these operations highlights its importance in everyday technology. Without excitors, many devices we take for granted would not function effectively. In biological systems, the concept of an excitor can also be applied. For instance, in the study of neurons, certain chemicals act as excitors that stimulate nerve cells to fire. This firing is essential for transmitting signals throughout the nervous system, which is fundamental for all bodily functions. Understanding how these excitors work can lead to advancements in medical science, particularly in treating neurological disorders. The applications of excitors extend beyond just technical fields; they also find relevance in research and development. Scientists often utilize excitors to explore new materials or phenomena. For example, in material science, researchers might use an excitor to induce changes in a material’s properties, leading to discoveries of new substances with unique characteristics. This exploration can pave the way for innovations in technology, energy, and manufacturing. In conclusion, the term excitor encapsulates a wide array of applications across multiple disciplines. Whether in telecommunications, electronics, biology, or research, excitors serve as critical components that drive functionality and innovation. As technology continues to evolve, the role of excitors will undoubtedly expand, leading to new discoveries and advancements that can benefit society as a whole. It is essential for students and professionals alike to grasp the significance of excitors in their respective fields, as this understanding can foster creativity and inspire future innovations.

在物理和工程领域，术语excitor指的是一种在系统中产生激励的设备或机制。这种激励可以导致各种现象，例如粒子的刺激、波的产生或某些过程的激活。理解excitor的功能在许多领域中至关重要，包括电信、电子甚至生物学。例如，在电信的背景下，excitor可能用于调制信号，从而允许数据在长距离上传输。这种调制对于确保信息能够准确地发送和接收至关重要，使得excitors成为通信系统中的重要组成部分。 此外，在电子学领域，excitors在电路中也扮演着重要角色，它们有助于触发其他组件的操作。例如，在一个简单的电路中，excitor可能用于打开灯泡或激活电动机。excitor控制这些操作的能力突显了它在日常技术中的重要性。如果没有excitors，我们认为理所当然的许多设备将无法有效运作。 在生物系统中，excitor的概念也可以应用。例如，在神经元研究中，某些化学物质充当excitor，刺激神经细胞发射。这种发射对于在整个神经系统中传递信号是必不可少的，对于所有身体功能都是基础。理解这些excitors的工作原理可以推动医学科学的进步，特别是在治疗神经系统疾病方面。 excitors的应用不仅限于技术领域；它们在研发中也具有相关性。科学家们经常利用excitors来探索新材料或现象。例如，在材料科学中，研究人员可能会使用excitor引发材料特性的变化，从而发现具有独特特性的新的物质。这种探索可以为技术、能源和制造业的创新铺平道路。 总之，术语excitor涵盖了多个学科中广泛的应用。无论是在电信、电子、生物学还是研究中，excitors作为推动功能和创新的关键组件发挥着重要作用。随着技术的不断发展，excitors的角色无疑会扩展，导致新的发现和进步，这可以使整个社会受益。学生和专业人士都必须掌握excitors在各自领域的重要性，因为这种理解可以促进创造力并激励未来的创新。