megavolt
简明释义
n. [电][计量] 兆伏;百万伏特
英英释义
A megavolt is a unit of electric potential equal to one million volts. | 兆伏特是等于一百万伏特的电位单位。 |
单词用法
以兆伏特计的高电压 | |
以兆伏特为单位测量 | |
兆伏特变压器 | |
兆伏特电源 |
同义词
| 千伏 | 电力线的电压为数千伏。 | ||
| 吉伏 | Research facilities may use gigavolt accelerators for particle physics experiments. | 研究设施可能使用吉伏加速器进行粒子物理实验。 |
反义词
| 毫伏 | The sensor operates at a sensitivity of just a few millivolts. | 该传感器的灵敏度仅为几毫伏。 | |
| 微伏 | The voltage drop across the circuit is measured in microvolts. | 电路中的电压降以微伏为单位进行测量。 |
例句
1.Megavolt Ampere of transformation capacity achieved the target of 75,000 MVA.
新增变电能力完成了75000兆伏安的目标。
2.Dr. Megavolt, Austin Richards, will pass hundreds of thousands of volts of raw electricity through his body so that his nails burn as lightning flickers from his fingertips.
“百万伏特博士”奥斯丁理查斯将会让高达数十万伏特的高压电流过自己的身体,以致烧焦了指甲,指尖发出阵阵闪光。
3.Dr. Megavolt, Austin Richards, will pass hundreds of thousands of volts of raw electricity through his body so that his nails burn as lightning flickers from his fingertips.
“百万伏特博士”奥斯丁理查斯将会让高达数十万伏特的高压电流过自己的身体,以致烧焦了指甲,指尖发出阵阵闪光。
4.Megavolt Ampere (MVA) of transformation capacity against a target of 75,000 MVA.
新增变电能力达79522兆伏安,超额完成了75000兆伏安的目标。
5.The new transformer can handle up to 5 megavolt (兆伏特) without overheating.
新的变压器可以在不发热的情况下处理高达5megavolt(兆伏特)的电压。
6.The high-voltage line transmits power across long distances at 1 megavolt (兆伏特).
高压线路以1megavolt(兆伏特)的电压跨越长距离传输电力。
7.Safety measures are crucial when working with equipment that operates at megavolt (兆伏特) levels.
在处理工作电压为megavolt(兆伏特)的设备时,安全措施至关重要。
8.During the experiment, the scientists measured a spike in voltage reaching 10 megavolt (兆伏特).
在实验过程中,科学家们测量到电压激增,达到10megavolt(兆伏特)。
9.The power plant generates electricity at a voltage of over megavolt (兆伏特) to ensure efficient transmission.
发电厂以超过megavolt(兆伏特)的电压生成电力,以确保高效传输。
作文
In the realm of electrical engineering, voltage is a fundamental concept that plays a crucial role in the functioning of various devices and systems. One of the most significant units of measurement for voltage is the megavolt, which is equivalent to one million volts. Understanding this term is essential for anyone involved in the field of electricity, power generation, or even electronics. The megavolt is often used to describe high-voltage applications, such as those found in power transmission lines or large-scale industrial equipment.The significance of the megavolt can be seen in its practical applications. For instance, in power plants, electricity generated at high voltages is essential for efficient transmission over long distances. When electricity travels through power lines, it encounters resistance, which can lead to energy loss in the form of heat. By using higher voltages, such as those measured in megavolts, utilities can minimize these losses and deliver more energy to consumers.Moreover, the use of megavolts is not limited to just power generation; it also extends to medical technologies. For example, in radiation therapy for cancer treatment, machines may utilize voltages in the megavolt range to produce high-energy X-rays. These high voltages are necessary to penetrate tissues effectively and target tumors accurately, showcasing another critical application of this unit.Despite the advantages, working with megavolts comes with inherent risks. High-voltage systems can be dangerous, and proper safety measures must be implemented to prevent accidents. Engineers and technicians must be trained to handle megavolt equipment safely, ensuring that they understand the potential hazards associated with high-voltage environments. This includes understanding how to use personal protective equipment (PPE) and adhering to strict protocols when working near high-voltage lines or equipment.In conclusion, the term megavolt represents a vital aspect of electrical engineering, with significant implications for both power generation and medical applications. As technology continues to advance, the importance of understanding high-voltage systems will only grow. Whether it is in the context of delivering electricity efficiently to homes and businesses or utilizing high-energy radiation for medical treatments, the megavolt remains an indispensable unit of measurement in our increasingly electrified world. By grasping the meaning and applications of megavolt, individuals can better appreciate the complexities and challenges faced by professionals in the electrical engineering field.
在电气工程领域,电压是一个基本概念,在各种设备和系统的运行中发挥着至关重要的作用。一个重要的电压测量单位是megavolt,它相当于一百万伏特。理解这个术语对于任何参与电力、电源生成或甚至电子学的人来说都是至关重要的。megavolt通常用于描述高电压应用,例如电力传输线或大规模工业设备中。megavolt的重要性可以在其实际应用中看到。例如,在发电厂中,以高电压生成的电力对于长距离的有效传输至关重要。当电力通过电力线传输时,它会遇到阻力,这可能导致以热量形式损失能量。通过使用更高的电压,例如以megavolt为单位的电压,公用事业公司可以最小化这些损失,并向消费者提供更多的能量。此外,megavolt的使用不仅限于发电;它还扩展到医疗技术中。例如,在癌症治疗的放射治疗中,机器可能利用megavolt范围内的电压来产生高能X射线。这些高电压是有效穿透组织并准确定位肿瘤所必需的,展示了这一单位的另一个关键应用。尽管有优势,但处理megavolt也伴随着固有风险。高电压系统可能是危险的,必须实施适当的安全措施以防止事故。工程师和技术人员必须接受培训,以安全地处理megavolt设备,确保他们了解与高电压环境相关的潜在危害。这包括了解如何使用个人防护装备(PPE)以及在靠近高电压线路或设备工作时遵循严格的协议。总之,术语megavolt代表了电气工程的一个重要方面,对电力生成和医疗应用都有重要影响。随着技术的不断进步,理解高电压系统的重要性只会增加。无论是在将电力有效输送到家庭和企业的背景下,还是利用高能辐射进行医疗治疗,megavolt在我们日益电气化的世界中仍然是一个不可或缺的测量单位。通过掌握megavolt的含义和应用,个人可以更好地欣赏电气工程领域专业人士面临的复杂性和挑战。
