activating signal energy

简明释义

激活能

英英释义

例句

1.Researchers are studying how activating signal energy 激活信号能量 affects neurotransmitter release in the brain.

研究人员正在研究激活信号能量如何影响大脑中的神经递质释放。

2.The device requires a specific activating signal energy 激活信号能量 to function properly.

该设备需要特定的激活信号能量才能正常工作。

3.The research team discovered that the activating signal energy 激活信号能量 plays a crucial role in cellular communication.

研究团队发现，激活信号能量在细胞间通信中起着至关重要的作用。

4.In quantum mechanics, the activating signal energy 激活信号能量 can trigger transitions between energy states.

在量子力学中，激活信号能量可以触发能级之间的跃迁。

5.The activating signal energy 激活信号能量 was measured using advanced sensors in the experiment.

在实验中，使用先进传感器测量了激活信号能量。

作文

In the realm of physics and engineering, the concept of activating signal energy plays a crucial role in understanding how systems respond to external stimuli. This term refers to the energy associated with signals that initiate or trigger a reaction within a system. Whether it's in telecommunications, robotics, or even biological systems, activating signal energy is fundamental to the functioning and performance of various technologies. To comprehend this concept better, let's consider a simple example from everyday life: a remote control. When you press a button on your remote, you are sending a signal to your television. This signal carries energy that activates the TV's internal circuits, allowing it to perform the desired action, such as changing the channel or adjusting the volume. In this scenario, the energy transferred through the signal is what we refer to as activating signal energy (激活信号能量). In more complex systems, such as in robotics, activating signal energy can dictate the movements and functions of a robot. For instance, when a sensor detects an obstacle, it sends a signal to the robot's processor. The energy from this signal activates the necessary motors to change the robot's direction. Here, the efficiency of the activating signal energy (激活信号能量) directly impacts the robot's responsiveness and overall performance. Furthermore, in the field of telecommunications, activating signal energy is vital for data transmission. When data is sent over a network, it is encoded into signals that travel through cables or airwaves. The energy of these signals must be sufficient to ensure that the information reaches its destination without significant loss. If the activating signal energy (激活信号能量) is too weak, the data may become corrupted or fail to arrive altogether. Biological systems also utilize activating signal energy in various ways. For instance, in cellular communication, cells communicate with each other through chemical signals. These signals carry energy that activates specific receptors on target cells, triggering a cascade of biological responses. Understanding how activating signal energy (激活信号能量) works in these contexts is essential for advancements in medicine and biotechnology. In conclusion, activating signal energy (激活信号能量) is a fundamental concept that spans multiple fields, including physics, engineering, telecommunications, and biology. It represents the energy carried by signals that activate systems and trigger responses. As technology continues to evolve, the importance of understanding and harnessing activating signal energy (激活信号能量) will only grow, paving the way for innovations that enhance our daily lives and expand the frontiers of science and engineering.

在物理学和工程学领域，激活信号能量的概念在理解系统如何响应外部刺激方面发挥着至关重要的作用。这个术语指的是与信号相关的能量，这些信号启动或触发系统内的反应。无论是在电信、机器人技术还是生物系统中，激活信号能量都是各种技术功能和性能的基础。为了更好地理解这一概念，让我们考虑一个日常生活中的简单例子：遥控器。当你按下遥控器上的按钮时，你实际上是向电视发送信号。这个信号携带的能量激活了电视内部的电路，使其能够执行所需的操作，例如更改频道或调整音量。在这个场景中，通过信号传输的能量就是我们所称的激活信号能量。在更复杂的系统中，例如在机器人技术中，激活信号能量可以决定机器人的运动和功能。例如，当传感器检测到障碍物时，它会向机器人的处理器发送信号。这个信号的能量激活了必要的电机，以改变机器人的方向。在这里，激活信号能量的效率直接影响机器人的响应能力和整体性能。此外，在电信领域，激活信号能量对于数据传输至关重要。当数据通过网络发送时，它被编码为信号，这些信号通过电缆或无线电波传播。这些信号的能量必须足够，以确保信息能够到达目的地而不会显著丢失。如果激活信号能量过弱，数据可能会损坏或根本无法到达。生物系统也以各种方式利用激活信号能量。例如，在细胞通信中，细胞通过化学信号相互交流。这些信号携带的能量激活目标细胞上的特定受体，触发一系列生物反应。理解激活信号能量在这些背景下的工作原理对于医学和生物技术的进步至关重要。总之，激活信号能量是一个基本概念，涵盖多个领域，包括物理学、工程学、电信和生物学。它代表了信号携带的能量，这些信号激活系统并触发响应。随着技术的不断发展，理解和利用激活信号能量的重要性只会增加，为增强我们的日常生活和拓展科学与工程的前沿铺平道路。