MKS unit
简明释义
米·千克·秒制单位
英英释义
MKS unit refers to the system of measurement based on the meter, kilogram, and second as its fundamental units. | MKS单位是指以米、千克和秒作为基本单位的测量系统。 |
例句
1.The physicist explained that the measurements were taken in the MKS unit (米-千克-秒制) for consistency.
物理学家解释说,测量是以MKS unit (米-千克-秒制)进行的,以保持一致性。
2.In engineering, using the MKS unit (米-千克-秒制) simplifies calculations for force and energy.
在工程中,使用MKS unit (米-千克-秒制)简化了力和能量的计算。
3.When converting measurements, it's essential to use the MKS unit (米-千克-秒制) to avoid confusion.
在转换测量时,使用MKS unit (米-千克-秒制)是必不可少的,以避免混淆。
4.The laboratory standardized all instruments to the MKS unit (米-千克-秒制) for accurate results.
实验室将所有仪器标准化为MKS unit (米-千克-秒制)以获得准确结果。
5.In physics, velocity is often expressed in MKS unit (米-千克-秒制) as meters per second.
在物理学中,速度通常以MKS unit (米-千克-秒制)表示为米每秒。
作文
The MKS unit system is a fundamental framework in the field of measurement that plays a crucial role in science and engineering. The term 'MKS' stands for Meter, Kilogram, and Second, which are the base units for length, mass, and time, respectively. This system provides a standardized way to express physical quantities, ensuring consistency and clarity in scientific communication. In contrast to other unit systems, such as CGS (centimeter, gram, second), the MKS unit system is more widely adopted in international contexts, especially in scientific research and technological development.Understanding the MKS unit system is essential for students and professionals alike, as it forms the basis for many advanced concepts in physics and engineering. For instance, when calculating force, we often use Newton's second law, which states that force equals mass times acceleration. In the MKS unit system, force is expressed in Newtons, where one Newton is defined as the force required to accelerate one kilogram of mass by one meter per second squared. This clear definition allows scientists and engineers to communicate their findings without ambiguity.Moreover, the MKS unit system is integral to various applications in real life. For example, in construction and architecture, measurements of length, weight, and time are critical. Engineers must ensure that structures can withstand forces and loads, and accurate calculations using the MKS units help them achieve this goal. When designing a bridge, the weight of materials (measured in kilograms) and the distance they span (measured in meters) are pivotal factors that determine the safety and stability of the structure.In addition to construction, the MKS unit system is also vital in the field of physics. Many physical laws and equations are formulated using these units. For instance, the universal law of gravitation, which describes the attractive force between two masses, uses the MKS system to express gravitational force in Newtons. This universality allows scientists from different countries and disciplines to collaborate effectively, as they can rely on a common understanding of measurements.Furthermore, the adoption of the MKS unit system has led to the development of derived units, which are combinations of the base units. For example, speed is measured in meters per second (m/s), while energy is expressed in joules (J), which is equivalent to a Newton-meter. These derived units enable a more comprehensive understanding of various physical phenomena and facilitate complex calculations.In conclusion, the MKS unit system is an indispensable part of scientific and engineering practices. Its emphasis on standardization and clarity has made it the preferred choice for many professionals worldwide. By mastering the MKS unit system, individuals can enhance their understanding of physical concepts and improve their ability to communicate effectively in technical fields. As we continue to advance in technology and science, the importance of the MKS unit system will only grow, solidifying its place as a cornerstone of modern measurement practices.
MKS单位制是测量领域的一个基本框架,在科学和工程中发挥着至关重要的作用。术语'MKS'代表米、千克和秒,分别是长度、质量和时间的基本单位。这个系统提供了一种标准化的方式来表达物理量,确保科学交流中的一致性和清晰度。与其他单位系统(如CGS(厘米、克、秒))相比,MKS单位制在国际背景下更为广泛采用,尤其是在科学研究和技术发展中。理解MKS单位制对学生和专业人士来说至关重要,因为它构成了许多物理和工程高级概念的基础。例如,在计算力时,我们通常使用牛顿第二定律,该定律指出力等于质量乘以加速度。在MKS单位制中,力以牛顿表示,其中一牛顿被定义为使一千克质量以每秒一米的速度加速所需的力。这一定义清晰明了,使科学家和工程师能够毫无歧义地交流他们的发现。此外,MKS单位制在现实生活中的各种应用中也至关重要。例如,在建筑和建筑学中,长度、重量和时间的测量至关重要。工程师必须确保结构能够承受力和负荷,而使用MKS单位进行准确计算有助于实现这一目标。在设计桥梁时,材料的重量(以千克为单位)和跨越的距离(以米为单位)是决定结构安全性和稳定性的关键因素。除了建筑,MKS单位制在物理学领域也至关重要。许多物理定律和方程都是使用这些单位制定的。例如,描述两种质量之间吸引力的万有引力定律使用MKS系统以牛顿表示引力。这种普遍性使来自不同国家和学科的科学家能够有效合作,因为他们可以依赖于对测量的共同理解。此外,MKS单位制的采用导致了派生单位的发展,这些单位是基本单位的组合。例如,速度以米每秒(m/s)为单位,能量以焦耳(J)表示,相当于牛顿-米。这些派生单位使我们更全面地理解各种物理现象,并便于复杂的计算。总之,MKS unit系统是科学和工程实践中不可或缺的一部分。它强调标准化和清晰性,使其成为全球许多专业人士的首选。通过掌握MKS unit系统,个人可以增强对物理概念的理解,提高在技术领域有效沟通的能力。随着我们在技术和科学方面的不断进步,MKS unit系统的重要性只会增加,巩固其作为现代测量实践基石的地位。
相关单词
