motors
简明释义
n. 汽车;发动机(motor 的复数);汽车公司证券
英英释义
单词用法
三菱汽车(日本汽车公司) | |
通用汽车公司 |
同义词
| 发动机 | 这辆车的发动机强大且高效。 | ||
| 驱动装置 | Electric drives are becoming more popular in modern vehicles. | 电动驱动在现代车辆中变得越来越受欢迎。 | |
| 机器 | 工业机器通常需要重型电动机。 | ||
| 螺旋桨 | 船只的螺旋桨在风暴中受损。 |
反义词
| 刹车 | 刹车对于减速车辆至关重要。 | ||
| 停止器 | 他安装了停止器以防止轮子滚动。 |
例句
1.General Motors entered bankruptcy protection.
通用汽车进入破产保护。
2.It was only when electric motors became advanced that vacuum cleaners became common.
只有电动机变得先进时,真空吸尘器才会普遍使用。
3.To get the shapes to move, he used small motors.
为了让这些形状动起来,他使用了小型马达。
4.The future of these two grand old badges will be shaped not in Coventry, the cradle of the British motor industry, but in Pune, home of Tata Motors.
这两大古老品牌的未来不是在英国汽车工业的摇篮考文垂,而是在塔塔汽车的故乡浦那。
5.Jayal Motors won't lose out if the Indian rupee falls further.
如果印度卢比继续下跌,Jayal Motors 也不会输。
6.They would be allowed to send groups of self-driving cars on cross-state road trips, and even set up on-demand fleets of self-driving cars, like the one General Motors and Lyft are building.
他们将被允许派遣自动驾驶汽车小组进行跨州公路旅行,甚至可以按需组建自动驾驶汽车车队,比如通用汽车和莱福特正在组建的车队。
7.The factory produces high-quality electric motors.
这家工厂生产高质量的电动电机。
8.Robots often use small electric motors for movement.
机器人通常使用小型电动电机进行移动。
9.The engineer tested the performance of the new motors.
工程师测试了新款电机的性能。
10.Many cars today are equipped with hybrid motors.
如今许多汽车都配备了混合动力电机。
11.We need to replace the faulty motors in the conveyor belt.
我们需要更换传送带上的故障电机。
作文
In today's world, the role of various technologies in our daily lives cannot be overstated. One of the most significant advancements that have shaped modern society is the development of electric and combustion engines, commonly referred to as motors (电动机). These motors are integral to countless applications, from powering vehicles to driving industrial machinery. Understanding how motors work and their impact on our environment is crucial for both consumers and engineers alike.The basic principle behind motors lies in converting electrical energy or fuel into mechanical energy. In electric motors (电动机), electricity flows through coils of wire, creating a magnetic field that causes a rotor to spin. This spinning motion can then be harnessed to perform work, such as turning the wheels of a car or moving a conveyor belt in a factory. On the other hand, combustion motors (内燃机) rely on burning fuel to create expanding gases that push pistons, which ultimately produce rotational motion.One of the most fascinating aspects of motors is their versatility. For example, in the automotive industry, electric motors are becoming increasingly popular due to their efficiency and lower environmental impact compared to traditional combustion motors (内燃机). Electric vehicles (EVs) utilize powerful motors that allow for quick acceleration and quiet operation, significantly reducing noise pollution in urban areas. Moreover, with the rise of renewable energy sources, electric motors can be powered by solar or wind energy, further enhancing their sustainability.Despite the advantages of electric motors, combustion motors still dominate many sectors, particularly in heavy industries and transportation. The internal combustion engine has been around for over a century and is deeply entrenched in our infrastructure. Many trucks, buses, and airplanes rely on these motors for their power. However, the environmental concerns associated with fossil fuels are prompting a shift towards cleaner alternatives. Innovations in hybrid technology, which combines both electric and combustion motors, aim to reduce emissions while maintaining the power needed for heavy-duty applications.As we look to the future, the evolution of motors will play a critical role in addressing global challenges such as climate change and energy consumption. Research and development in this field are focused on making motors more efficient, reducing their size and weight, and improving their overall performance. For instance, advancements in materials science are leading to lighter and stronger components, which can enhance the efficiency of both electric and combustion motors.In conclusion, motors (电动机) are a fundamental part of our technological landscape, driving innovation and shaping the way we live and work. From electric cars to industrial machines, understanding the mechanics and implications of motors is essential for anyone interested in technology and sustainability. As we continue to explore new frontiers in engineering, the potential of motors remains vast, promising a future where efficiency and environmental responsibility go hand in hand.
在当今世界,各种技术在我们日常生活中的作用不可低估。其中一个重大进展是电动和内燃发动机的发展,通常被称为motors(电动机)。这些motors在无数应用中至关重要,从驱动车辆到推动工业机械。理解motors的工作原理及其对我们环境的影响,对于消费者和工程师来说都是至关重要的。motors的基本原理在于将电能或燃料转化为机械能。在电动motors(电动机)中,电流通过线圈流动,产生磁场,使转子旋转。这种旋转运动可以被利用来完成工作,例如转动车辆的轮子或移动工厂中的传送带。另一方面,内燃motors(内燃机)依靠燃烧燃料产生膨胀气体,推动活塞,最终产生旋转运动。motors最令人着迷的方面之一是它们的多功能性。例如,在汽车工业中,电动motors因其效率和相较传统内燃motors(内燃机)更低的环境影响而变得越来越受欢迎。电动汽车(EV)利用强大的motors,能够快速加速且运行安静,显著减少城市地区的噪音污染。此外,随着可再生能源的兴起,电动motors可以通过太阳能或风能供电,进一步增强其可持续性。尽管电动motors有诸多优势,但内燃motors仍在许多行业中占主导地位,尤其是在重工业和运输领域。内燃机已经存在了一个多世纪,并深深扎根于我们的基础设施中。许多卡车、公交车和飞机依赖这些motors提供动力。然而,与化石燃料相关的环境问题促使向更清洁的替代品转变。混合动力技术的创新,结合了电动和内燃motors,旨在在保持重型应用所需的功率的同时减少排放。展望未来,motors的演变将在应对气候变化和能源消耗等全球挑战中发挥关键作用。该领域的研究与开发集中在提高motors的效率、减小其体积和重量以及改善其整体性能。例如,材料科学的进步正在导致更轻、更强的组件,从而提高电动和内燃motors的效率。总之,motors(电动机)是我们技术格局的基本组成部分,推动着创新,塑造着我们的生活和工作方式。从电动汽车到工业机器,理解motors的机制及其影响对于任何对技术和可持续性感兴趣的人来说都是至关重要的。随着我们继续探索工程的新前沿,motors的潜力依然巨大,承诺实现效率与环境责任的并行发展。
