micros
简明释义
n. [计]微指令(micro 复数形式)
英英释义
单词用法
微观尺度 | |
微观结构 | |
微系统技术 | |
微卫星DNA |
同义词
| 微小的 | 微生物对土壤健康至关重要。 | ||
| 微型的 | 该设备的微小部件使其非常高效。 | ||
| 微型的 | They created a miniature version of the city for the exhibition. | 他们为展览创建了城市的微型版本。 | |
| 小规模的 | Small-scale experiments can lead to significant breakthroughs. | 小规模实验可以导致重大的突破。 |
反义词
| 宏观 | macros are often used in economic analysis to understand large-scale trends. | 宏观经济分析通常用于了解大规模趋势。 | |
| 大 | 大数据集可以提供微观无法提供的洞察。 |
例句
1.With today's inexpensive micros and minis, there is no reason why a branch office, the engineer-in department, or any other group needing computer support cannot have its own computer.
由于现在微机和小型机都很便宜,因此在科室、工程部门,或者任问需要计算机支持工作的团体部可以拥有自己的计算机。
2.And this room is for micros analyze and inoculation test.
和这个房间是为百万分之一分析和接种试验。
3.This article evaluates a variety of near-term chemical launch vehicle and upper-stage options and discusses some launch vehicle options for application to several conceptual micros...
本文对各种近期的化学运载工具及上面级方案进行了评价,并提出了几种可执行某些微型航天器发射任务的方案。
4.Has a thorough knowledge to all sides of MICROS System.
对MICROS电脑系统的各方面都要全面了解。
5.Consider first the sheer practical problems of reading a newspaper on the screen of one of today's micros .
首先考虑在现在的电子产品屏幕上阅读报纸这一显而易见的实际问题。
6.Wide area network (WAN): A network of micros spread over a larger area than a LAN, and linked typically by telecommunication.
宽域网络:较本地地区网络为大,主要用电讯联系的微处理机网络。 收藏。
7.The present study reported the observations with light and electronic micros copy on hybrid cells crossed between rat intermediate or late erythroblasts and mouse SP2/0 plasmocytoma cells.
本文报道大鼠中幼或晚幼红细胞与小鼠浆细胞瘤sP2/0细胞异种杂交后的光镜和电镜观察结果。
8.Formation and morphogenesis of the protocorms of Cattleya hybrid were investigated in cytology by light micros copy and electronic microscopy.
采用光学显微镜和电子显微镜技术对离体培养条件下卡德丽亚兰原球茎产生及形态建成进行了系统的细胞学观察。
9.The new smartphone model features advanced micros 微型技术 that enhance its camera capabilities.
这款新智能手机型号采用了先进的微型技术,提升了其相机功能。
10.The company specializes in manufacturing micros 微型芯片 for various electronic devices.
该公司专注于为各种电子设备制造微型芯片。
11.The researchers discovered new species of micros 微生物 in the deep ocean.
研究人员在深海发现了新的微生物物种。
12.In the lab, scientists use micros 微生物 to study the effects of pollution on ecosystems.
在实验室里,科学家们使用微生物研究污染对生态系统的影响。
13.We need to examine these micros 微小结构 under a microscope for better clarity.
我们需要在显微镜下检查这些微小结构以获得更清晰的视图。
作文
In today's rapidly evolving technological landscape, the term micros (微型) has gained significant importance. The word refers to small-scale components or systems that play a crucial role in various fields, including electronics, biology, and engineering. Understanding the concept of micros is essential for anyone looking to delve into modern technology or scientific research. This essay will explore the significance of micros in different domains and how they contribute to innovation and efficiency.To begin with, in the field of electronics, micros are often associated with microcontrollers and microprocessors. These tiny chips serve as the brains of numerous devices, from household appliances to complex industrial machines. For instance, a simple microwave oven relies on a microcontroller to manage its functions, ensuring that it operates efficiently and safely. The advancement of micros has led to the miniaturization of electronic devices, allowing for more compact designs without sacrificing performance. This trend is evident in smartphones, which house powerful processors within their slim frames, thanks to the development of micros technology.Moreover, the impact of micros extends beyond electronics; it also plays a pivotal role in the field of biology. Microbiology, the study of microscopic organisms, is heavily reliant on understanding micros. Advances in microscopy have enabled scientists to observe and analyze microorganisms that were once invisible to the naked eye. This knowledge has led to breakthroughs in medicine, agriculture, and environmental science. For example, researchers can now use micros to study bacteria and viruses, helping to develop vaccines and treatments for various diseases. The ability to manipulate micros in biological research has opened new avenues for innovation, emphasizing the interconnectedness of technology and life sciences.In engineering, the concept of micros is equally vital. Microelectromechanical systems (MEMS) are tiny mechanical devices that integrate mechanical and electrical components at a microscale. These systems are used in various applications, such as sensors, accelerometers, and actuators. The development of MEMS technology has revolutionized industries like automotive and aerospace, where precision and reliability are paramount. For instance, airbag systems in vehicles utilize micros sensors to detect collisions and deploy airbags within milliseconds, potentially saving lives. The continuous improvement of micros in engineering not only enhances safety but also increases the overall efficiency of systems.Furthermore, the rise of the Internet of Things (IoT) is another area where micros play a crucial role. IoT devices, which connect to the internet and communicate with each other, often rely on micros to function effectively. Smart home devices, wearables, and industrial sensors all incorporate micros to collect data and perform tasks autonomously. This connectivity fosters a more efficient and responsive environment, demonstrating how micros are integral to our daily lives.In conclusion, the term micros encompasses a wide range of applications and technologies that are fundamental to modern society. From electronics to biology and engineering, micros serve as the building blocks of innovation and progress. As technology continues to advance, the importance of micros will only grow, shaping the future in ways we can only begin to imagine. Embracing the potential of micros will undoubtedly lead to new discoveries and improvements across various fields, ultimately enhancing our quality of life.
在当今快速发展的技术环境中,术语micros(微型)变得越来越重要。这个词指的是小规模的组件或系统,在电子、生命科学和工程等各个领域发挥着至关重要的作用。理解micros的概念对于任何希望深入现代技术或科学研究的人来说都是必不可少的。本文将探讨micros在不同领域的重要性,以及它们如何促进创新和效率。首先,在电子领域,micros通常与微控制器和微处理器相关。这些微小的芯片是许多设备的“大脑”,从家用电器到复杂的工业机器。例如,一台简单的微波炉依赖于微控制器来管理其功能,确保其高效且安全地运行。micros的进步导致了电子设备的小型化,使得设计更加紧凑而不牺牲性能。这一趋势在智能手机中尤为明显,强大的处理器能够被置入其纤薄的外壳中,这要归功于micros技术的发展。此外,micros的影响不仅限于电子领域;它在生物学领域同样发挥着关键作用。微生物学,即对微观生物的研究,严重依赖于对micros的理解。显微镜技术的进步使科学家能够观察和分析曾经肉眼无法看到的微生物。这一知识促成了医学、农业和环境科学的突破。例如,研究人员现在可以利用micros研究细菌和病毒,从而帮助开发各种疾病的疫苗和治疗方法。在生物研究中操控micros的能力开启了创新的新途径,强调了技术与生命科学之间的相互联系。在工程领域,micros的概念同样至关重要。微机电系统(MEMS)是将机械和电气组件集成在微观尺度上的微小机械设备。这些系统用于各种应用,如传感器、加速度计和执行器。MEMS技术的发展彻底改变了汽车和航空航天等行业,在这些行业中,精确性和可靠性至关重要。例如,车辆中的安全气囊系统利用micros传感器来检测碰撞,并在毫秒内部署安全气囊,有可能挽救生命。micros在工程中的持续改进不仅提高了安全性,还增加了系统的整体效率。此外,物联网(IoT)的兴起是另一个micros发挥关键作用的领域。物联网设备通过互联网连接并相互通信,通常依赖于micros来有效运作。智能家居设备、可穿戴设备和工业传感器都结合了micros来收集数据并自主执行任务。这种连接促进了更高效和响应迅速的环境,表明micros在我们日常生活中不可或缺。总之,术语micros涵盖了广泛的应用和技术,是现代社会的基础。从电子学到生物学和工程,micros作为创新和进步的基石。随着技术的不断进步,micros的重要性只会增加,以我们只能开始想象的方式塑造未来。拥抱micros的潜力无疑将导致各个领域的新发现和改进,最终提升我们的生活质量。
