stream of pulses
简明释义
脉冲流
英英释义
A continuous flow of electrical signals or waves, typically representing information or data in a digital format. | 一系列连续的电信号或波,通常表示以数字格式的信息或数据。 |
例句
1.The communication device transmits data as a stream of pulses to ensure clarity.
通信设备将数据作为脉冲流传输,以确保清晰度。
2.The doctor monitored the patient's heart using a device that displayed a continuous stream of pulses.
医生使用设备监测病人的心脏,显示出连续的脉冲流。
3.In the lab, scientists analyzed the stream of pulses generated by the laser to study its properties.
在实验室,科学家分析激光产生的脉冲流以研究其性质。
4.During the experiment, we observed a stream of pulses indicating the presence of a chemical reaction.
在实验过程中,我们观察到一脉冲流,表明发生了化学反应。
5.The radar system emits a stream of pulses to detect nearby objects in the sky.
雷达系统发出一脉冲流以探测天空中的附近物体。
作文
In the realm of science and technology, the concept of a stream of pulses is fundamental to understanding various phenomena, particularly in fields such as telecommunications, medicine, and electronics. A stream of pulses refers to a series of discrete, short bursts of energy or signals that travel through a medium, whether it be air, fiber optics, or even biological systems. This phenomenon can be observed in numerous applications, showcasing its importance across different domains.For instance, in telecommunications, a stream of pulses is essential for transmitting information over long distances. When we make a phone call, our voice is converted into electrical signals, which are then transformed into a stream of pulses. These pulses travel through cables or wireless networks, ultimately reaching the recipient's device. The ability to encode and decode these pulses accurately is crucial for effective communication. Without this technology, our modern world, characterized by instant connectivity, would not be possible.Similarly, in the field of medicine, the concept of a stream of pulses plays a vital role in diagnostic imaging techniques such as ultrasound. Ultrasound machines emit sound waves in the form of a stream of pulses, which bounce off internal organs and return to the machine. By analyzing these returning pulses, medical professionals can create detailed images of the body's structures, aiding in diagnosis and treatment planning. This application exemplifies how a simple yet powerful concept can lead to significant advancements in healthcare.Moreover, in electronics, a stream of pulses is often used in digital circuits. For example, microcontrollers and processors operate based on a series of clock pulses that dictate their operations. Each pulse in the stream of pulses signals the processor to perform specific tasks, such as reading data from memory or executing instructions. The synchronization of these pulses ensures that devices function smoothly and efficiently, highlighting the importance of timing in electronic systems.The versatility of the stream of pulses extends beyond these examples. In physics, researchers study the behavior of light as a stream of pulses in the form of laser beams. In environmental science, scientists may analyze the stream of pulses created by seismic waves to understand earthquakes better. Each of these instances demonstrates how the concept transcends disciplines, providing insights into both natural phenomena and technological innovations.In conclusion, the idea of a stream of pulses is a cornerstone in various scientific and technological fields. Its applications range from facilitating communication to enhancing medical imaging and optimizing electronic devices. Understanding this concept enables us to appreciate the intricate workings of the world around us and the technologies we often take for granted. As we continue to explore and innovate, the stream of pulses will undoubtedly remain a critical element in our quest for knowledge and advancement.
在科学和技术领域,脉冲流的概念对于理解各种现象至关重要,特别是在电信、医学和电子学等领域。脉冲流指的是通过某种介质(无论是空气、光纤,还是生物系统)传播的一系列离散的短促能量或信号。这种现象可以在许多应用中观察到,展示了它在不同领域的重要性。例如,在电信领域,脉冲流对长距离传输信息至关重要。当我们拨打电话时,我们的声音被转换成电信号,然后转变为一个脉冲流。这些脉冲通过电缆或无线网络传播,最终到达接收者的设备。准确编码和解码这些脉冲的能力对有效的通信至关重要。如果没有这项技术,我们现代世界的即时连接特征将不可能实现。同样,在医学领域,脉冲流的概念在超声波等诊断成像技术中发挥着重要作用。超声波机器以脉冲流的形式发出声波,这些声波会反射内部器官并返回机器。通过分析这些返回的脉冲,医疗专业人员可以创建身体结构的详细图像,帮助诊断和治疗计划。这一应用例证了一个简单而强大的概念如何推动医疗保健的重大进步。此外,在电子学中,脉冲流通常用于数字电路。例如,微控制器和处理器基于一系列时钟脉冲进行操作,这些脉冲决定它们的操作。脉冲流中的每个脉冲都向处理器发出信号,指示其执行特定任务,例如从内存读取数据或执行指令。这些脉冲的同步确保设备平稳高效地运行,突显了时序在电子系统中的重要性。脉冲流的多功能性超越了这些例子。在物理学中,研究人员研究光作为脉冲流的行为,例如激光束。在环境科学中,科学家可能会分析由地震波产生的脉冲流以更好地理解地震。每一个实例都展示了这个概念如何跨越学科,为自然现象和技术创新提供深刻见解。总之,脉冲流的概念是各种科学和技术领域的基石。它的应用范围从促进通信到增强医学成像,再到优化电子设备。理解这一概念使我们能够欣赏周围世界的复杂运作以及我们常常视为理所当然的技术。随着我们继续探索和创新,脉冲流无疑将继续成为我们追求知识和进步的重要元素。
相关单词
