maxwell
简明释义
n. 麦克斯韦(磁通量单位)
英英释义
单词用法
麦克斯韦电磁定律 | |
麦克斯韦分布 | |
麦克斯韦的影响 | |
詹姆斯·克拉克·麦克斯韦 | |
麦克斯韦方程描述 | |
麦克斯韦对物理学的贡献 |
同义词
反义词
| 最小值 | The minimum requirement for this job is a bachelor's degree. | 这份工作的最低要求是本科学位。 | |
| 最少的 | We need to reduce our expenses to the least possible amount. | 我们需要将开支减少到最少的金额。 |
例句
1.When will the next Newton, Maxwell, or Einstein appear?
下一个牛顿、麦克斯韦、爱因斯坦何时出现?
2.The three original plates are now kept in Edinburgh, where Maxwell was born.
三个原始的底片玻璃板现在保存在麦克斯韦出生的爱丁堡。
3."40 By George, I'll do it now," said Maxwell, half aloud. "I'll ask her now."
“真的,我现在就得去,”麦克斯韦尔几乎喊了出来,“我现在就去问她。”
4.He had three portraits on his wall.One was Sir Isaac Newton, another Michael Faraday.The third was James Clerk Maxwell.
在墙上挂了三幅肖像,其一是牛顿爵士,其二是法拉第,第三幅就是JamesClerk Maxwell。
5.One Italian example would be the Berlusconi group, while abroad Maxwell and Murdoch come to mind.
意大利的一个典例是贝鲁思科尼集团,而提到国外的例子时,马克斯韦尔和默多克会出现在脑海中。
6.In his opinion this settled the issue for the contemporaries of Darwin and Maxwell.
按照他的看法,这样一种科学解决了达尔文和麦克斯韦尔[3]的同代人没有解决的问题。
7.Convinced that this was no accident, Maxwell went on to suggest that light is, in fact, an electromagnetic wave.
斐索,法国科学家,1850年用齿轮法测定了光速。这不是偶然,麦克斯韦认为光事实上也是一种电磁波。
8.The total magnetic flux through a surface can be expressed in maxwell 韦伯(磁通量单位).
通过一个表面的总磁通量可以用maxwell 韦伯(磁通量单位)表示。
9.The researchers published their findings in terms of maxwell 韦伯(磁通量单位) for clarity.
研究人员为了清晰起见,以maxwell 韦伯(磁通量单位)的形式发布了他们的发现。
10.In electromagnetic theory, the unit of magnetic flux is defined as one maxwell 韦伯(磁通量单位).
在电磁理论中,磁通量的单位定义为一个maxwell 韦伯(磁通量单位)。
11.When calculating the magnetic field, it is important to convert values into maxwell 韦伯(磁通量单位) for consistency.
在计算磁场时,将数值转换为maxwell 韦伯(磁通量单位)以保持一致性是很重要的。
12.The scientist conducted an experiment to measure the magnetic field strength using a device calibrated in maxwell 韦伯(磁通量单位).
科学家进行了实验,以使用以maxwell 韦伯(磁通量单位)校准的设备来测量磁场强度。
作文
The name Maxwell has become synonymous with groundbreaking contributions to the field of physics and engineering. One of the most notable figures associated with this name is James Clerk Maxwell, a Scottish physicist who lived during the 19th century. His formulation of the classical theory of electromagnetic radiation laid the foundation for modern physics. Maxwell's equations, which describe how electric and magnetic fields interact, are fundamental to our understanding of electromagnetic waves, including light. In addition to his work in electromagnetism, Maxwell made significant contributions to thermodynamics and kinetic theory. His insights into the behavior of gases led to the development of the Maxwell-Boltzmann distribution, which explains the distribution of speeds among particles in a gas. This was a crucial step in the advancement of statistical mechanics. The impact of Maxwell's work extends beyond the realm of physics; it has influenced various fields, including engineering, telecommunications, and even computer science. For instance, the principles derived from Maxwell's equations are essential for the design of electrical circuits and wireless communication systems. The technologies we rely on today, such as radio, television, and smartphones, owe much to the pioneering work of Maxwell. Moreover, Maxwell was not only a brilliant scientist but also an inspiring educator. He emphasized the importance of clear thinking and effective communication in science. His ability to convey complex ideas in an understandable manner has inspired countless students and researchers. This legacy of effective communication is vital in today's world, where scientific literacy is increasingly important. In popular culture, the name Maxwell has appeared in various contexts, often symbolizing intelligence and innovation. From literary references to modern media, Maxwell represents the spirit of inquiry and the pursuit of knowledge. In conclusion, the name Maxwell carries immense significance in the history of science. The contributions of James Clerk Maxwell have profoundly shaped our understanding of the physical world and have paved the way for technological advancements that define our modern lives. As we continue to explore the mysteries of the universe, the legacy of Maxwell serves as a reminder of the power of human curiosity and intellect. Understanding the depth of Maxwell's contributions not only enriches our knowledge of science but also inspires future generations to push the boundaries of what is possible.
“Maxwell”这个名字在物理学和工程学领域的突破性贡献中变得同义。与这个名字相关的最著名人物之一是詹姆斯·克拉克Maxwell,他是一位生活在19世纪的苏格兰物理学家。他对电磁辐射经典理论的公式化奠定了现代物理学的基础。Maxwell方程描述了电场和磁场如何相互作用,是我们理解电磁波(包括光)的基础。除了在电磁学方面的工作外,Maxwell还对热力学和动理论做出了重要贡献。他对气体行为的洞察导致了Maxwell-玻尔兹曼分布的发展,该分布解释了气体中粒子速度的分布。这是统计力学发展的关键一步。Maxwell的工作影响不仅限于物理学领域;它还影响了工程学、电信,甚至计算机科学。例如,从Maxwell方程导出的原理对于电路设计和无线通信系统至关重要。我们今天依赖的技术,如无线电、电视和智能手机,都在很大程度上归功于Maxwell的开创性工作。此外,Maxwell不仅是一位杰出的科学家,还是一位鼓舞人心的教育者。他强调清晰思考和有效沟通在科学中的重要性。他能够以易于理解的方式传达复杂思想,激励了无数学生和研究人员。这种有效沟通的遗产在当今世界中至关重要,科学素养日益重要。在流行文化中,Maxwell这个名字出现在各种背景中,通常象征着智慧和创新。从文学引用到现代媒体,Maxwell代表了探索精神和追求知识的精神。总之,Maxwell这个名字在科学史上具有巨大的意义。詹姆斯·克拉克Maxwell的贡献深刻地塑造了我们对物质世界的理解,并为定义我们现代生活的技术进步铺平了道路。当我们继续探索宇宙的奥秘时,Maxwell的遗产提醒我们人类好奇心和智慧的力量。理解Maxwell贡献的深度不仅丰富了我们对科学的认识,还激励未来几代人推动可能性的边界。
