transmission efficiency
简明释义
传动效率输电效率
英英释义
例句
1.The new fiber optic cables have significantly improved the transmission efficiency 传输效率 of our internet connection.
新的光纤电缆显著提高了我们互联网连接的传输效率。
2.The research team focused on the transmission efficiency 传输效率 of wireless signals in urban environments.
研究小组专注于城市环境中无线信号的传输效率。
3.Engineers are working on enhancing the transmission efficiency 传输效率 of solar panels to maximize energy output.
工程师们正在努力提高太阳能电池板的传输效率,以最大化能源输出。
4.A higher transmission efficiency 传输效率 in electric motors can lead to reduced energy costs for manufacturers.
电动机更高的传输效率可以降低制造商的能源成本。
5.By optimizing the network design, we can improve the transmission efficiency 传输效率 of data packets.
通过优化网络设计,我们可以提高数据包的传输效率。
作文
In the modern world, where technology plays a pivotal role in our daily lives, the concept of transmission efficiency (传输效率) has become increasingly important. This term refers to the effectiveness with which data or energy is transferred from one point to another. Whether we are talking about telecommunications, electrical systems, or even biological processes, understanding transmission efficiency (传输效率) can lead to significant improvements and innovations.To begin with, let’s consider the realm of telecommunications. In an age where information is exchanged at lightning speed, the efficiency of data transmission can greatly impact user experience. High transmission efficiency (传输效率) means that more data can be sent over a network in less time, leading to faster internet speeds and smoother streaming services. Companies invest heavily in improving their networks to enhance transmission efficiency (传输效率), using advanced technologies such as fiber optics and 5G networks. These innovations not only improve speed but also reduce latency, which is crucial for applications like online gaming and video conferencing.Moreover, in the field of electrical engineering, transmission efficiency (传输效率) is vital for minimizing energy loss during power distribution. When electricity travels long distances, it often loses energy due to resistance in the wires. By optimizing the transmission efficiency (传输效率) of power lines, engineers can ensure that more energy reaches consumers, ultimately leading to lower electricity bills and a reduced carbon footprint. Techniques such as high-voltage transmission and the use of superconductors are being explored to enhance this aspect further.Additionally, the concept of transmission efficiency (传输效率) extends beyond technology into biological systems. For instance, in ecological studies, researchers examine how efficiently energy is transferred through food webs. The higher the transmission efficiency (传输效率), the more energy is available for organisms at higher trophic levels. Understanding these dynamics can help in conservation efforts and managing ecosystems sustainably.Furthermore, improving transmission efficiency (传输效率) can lead to economic benefits. Businesses that optimize their operations to enhance transmission efficiency (传输效率) can reduce costs, increase productivity, and gain a competitive edge in the market. For example, manufacturers that streamline their supply chains to ensure efficient movement of goods can respond quicker to market demands, ultimately satisfying customer needs more effectively.In conclusion, the importance of transmission efficiency (传输效率) cannot be overstated. It is a critical factor in various fields, from telecommunications to electrical engineering and ecology. By focusing on enhancing transmission efficiency (传输效率), we can pave the way for technological advancements, environmental sustainability, and economic growth. As we continue to innovate and explore new frontiers, the quest for improved transmission efficiency (传输效率) will undoubtedly remain at the forefront of our endeavors, shaping a better future for all.
在现代社会,科技在我们日常生活中扮演着关键角色,传输效率(transmission efficiency)这一概念变得越来越重要。这个术语指的是数据或能量从一个点传输到另一个点的有效性。无论我们是在谈论电信、电子系统,还是生物过程,理解传输效率(transmission efficiency)都能带来显著的改善和创新。首先,让我们考虑电信领域。在信息以闪电般速度交换的时代,数据传输的效率可以大大影响用户体验。高传输效率(transmission efficiency)意味着可以在更短的时间内发送更多的数据,从而导致更快的互联网速度和更流畅的流媒体服务。公司在提升其网络方面投入巨资,以增强传输效率(transmission efficiency),采用光纤和5G网络等先进技术。这些创新不仅提高了速度,还减少了延迟,这对在线游戏和视频会议等应用至关重要。此外,在电气工程领域,传输效率(transmission efficiency)对于减少电力分配过程中的能量损失至关重要。当电力长距离传输时,由于导线的电阻,它往往会损失能量。通过优化电力线路的传输效率(transmission efficiency),工程师可以确保更多的能量到达消费者,最终导致更低的电费和减少的碳足迹。高压输电和超导体的使用等技术正在被探索,以进一步增强这一方面。此外,传输效率(transmission efficiency)这一概念不仅限于技术,还扩展到生物系统。例如,在生态研究中,研究人员考察能量在食物链中传递的效率。传输效率(transmission efficiency)越高,越多的能量可供较高营养级的生物使用。理解这些动态可以帮助保护工作和可持续管理生态系统。此外,提高传输效率(transmission efficiency)还可以带来经济利益。那些优化运营以增强传输效率(transmission efficiency)的企业可以降低成本,提高生产力,并在市场中获得竞争优势。例如,制造商通过简化供应链以确保货物的高效移动,可以更快地响应市场需求,最终更有效地满足客户需求。总之,传输效率(transmission efficiency)的重要性不容小觑。它是多个领域的关键因素,从电信到电气工程和生态学。通过专注于提升传输效率(transmission efficiency),我们可以为技术进步、环境可持续性和经济增长铺平道路。随着我们不断创新和探索新的前沿,改善传输效率(transmission efficiency)的追求无疑将继续处于我们努力的前沿,塑造一个更美好的未来。
