centimeter-gram-second electromagnetic system

简明释义

静电厘米—克—秒制

英英释义

例句

1.The centimeter-gram-second electromagnetic system simplifies many equations in electromagnetism.

在电磁学中，厘米-克-秒电磁系统简化了许多方程。

2.When designing circuits, engineers often refer to the centimeter-gram-second electromagnetic system for unit consistency.

在设计电路时，工程师通常参考厘米-克-秒电磁系统以保持单位一致性。

3.Theoretical studies in electromagnetism frequently utilize the centimeter-gram-second electromagnetic system for its convenience.

电磁学的理论研究常常利用厘米-克-秒电磁系统的便利性。

4.In laboratory settings, experiments are often measured using the centimeter-gram-second electromagnetic system.

在实验室环境中，实验通常使用厘米-克-秒电磁系统进行测量。

5.In physics, the centimeter-gram-second electromagnetic system is often used for calculating electromagnetic forces.

在物理学中，厘米-克-秒电磁系统通常用于计算电磁力。

作文

The world of physics is filled with various systems of measurement that help scientists and engineers quantify and describe the physical universe. One such system is the centimeter-gram-second electromagnetic system, which plays a crucial role in the field of electromagnetism. This system, often abbreviated as CGS, is based on three fundamental units: the centimeter for length, the gram for mass, and the second for time. Additionally, it incorporates electromagnetic units that are essential for understanding electric and magnetic phenomena.In the centimeter-gram-second electromagnetic system, the choice of centimeter as a unit of length allows for measurements that are convenient for many laboratory experiments. For instance, when dealing with small-scale phenomena, such as the behavior of electrons or the properties of materials at the microscopic level, centimeters provide a more manageable scale than meters. The gram, as a unit of mass, is similarly advantageous for scientific work, particularly in chemistry and physics, where precise measurements are critical.Time is measured in seconds, which is consistent across various systems of measurement. This consistency is vital for calculations involving speed, frequency, and other time-dependent phenomena. The integration of these three basic units provides a coherent framework for conducting experiments and analyzing results.Moreover, the centimeter-gram-second electromagnetic system includes specific units for electric and magnetic fields, such as the statvolt for electric potential and the gauss for magnetic flux density. These units allow physicists to express the relationships between electric charges and magnetic fields in a clear and standardized manner. For example, when studying electromagnetic waves, scientists can use these units to calculate wave properties like wavelength, frequency, and energy.One notable aspect of the centimeter-gram-second electromagnetic system is its historical significance. It was widely used before the adoption of the International System of Units (SI), which has since become the standard in most scientific disciplines. However, the CGS system remains relevant in certain areas of research, particularly in theoretical physics and when dealing with classical electromagnetism.Understanding the centimeter-gram-second electromagnetic system is not just an academic exercise; it has practical implications in technology and engineering. For instance, electrical engineers often encounter CGS units when designing circuits or analyzing electromagnetic compatibility. Familiarity with this system allows them to communicate effectively with researchers and professionals who continue to use CGS in their work.In conclusion, the centimeter-gram-second electromagnetic system is a fundamental framework in the realm of physics that facilitates the study of electromagnetism. Its reliance on easily manageable units of measurement makes it a valuable tool for scientists and engineers alike. While the SI system has largely taken precedence, the CGS system still holds importance in various scientific applications. By understanding this system, we gain deeper insights into the principles of electromagnetism and enhance our ability to innovate in technology and engineering fields.

物理学的世界充满了各种测量系统，帮助科学家和工程师量化和描述物理宇宙。其中一个系统是厘米-克-秒电磁系统，在电磁学领域中发挥着重要作用。这个系统通常缩写为CGS，基于三个基本单位：长度的厘米、质量的克和时间的秒。此外，它还包含电磁单位，对于理解电和磁现象至关重要。在厘米-克-秒电磁系统中，选择厘米作为长度单位使得许多实验室实验的测量更为方便。例如，在处理小规模现象时，如电子的行为或材料在微观水平上的特性，厘米提供了比米更易于管理的尺度。克作为质量单位同样在科学工作中具有优势，特别是在化学和物理学中，精确的测量至关重要。时间以秒为单位进行测量，这在各种测量系统中是一致的。这种一致性对于涉及速度、频率和其他时间依赖现象的计算至关重要。这三个基本单位的整合为进行实验和分析结果提供了一个连贯的框架。此外，厘米-克-秒电磁系统包括电场和磁场的特定单位，如电势的静伏特和磁通密度的高斯。这些单位使物理学家能够以清晰和标准化的方式表达电荷与磁场之间的关系。例如，在研究电磁波时，科学家可以使用这些单位来计算波长、频率和能量等波动特性。厘米-克-秒电磁系统的一个显著特点是其历史意义。在国际单位制（SI）成为大多数科学学科标准之前，该系统被广泛使用。然而，CGS系统在某些研究领域仍然相关，特别是在理论物理学和处理经典电磁学时。理解厘米-克-秒电磁系统不仅仅是一个学术练习；它在技术和工程中具有实际意义。例如，电气工程师在设计电路或分析电磁兼容性时经常遇到CGS单位。熟悉这个系统使他们能够与继续在工作中使用CGS的研究人员和专业人士有效沟通。总之，厘米-克-秒电磁系统是物理学领域中的一个基本框架，促进了电磁学的研究。它依赖于易于管理的测量单位，使其成为科学家和工程师的宝贵工具。尽管SI系统在很大程度上占据了主导地位，但CGS系统在各种科学应用中仍然具有重要性。通过理解这个系统，我们可以更深入地洞察电磁学的原理，并增强我们在技术和工程领域创新的能力。