system of units of measurement
简明释义
计量单位制
英英释义
A system of units of measurement is a standardized set of units used to quantify physical properties such as length, mass, and time. | 测量单位系统是用于量化物理属性(如长度、质量和时间)的标准化单位集合。 |
例句
1.Understanding the system of units of measurement 测量单位系统 is crucial for accurate scientific research.
理解测量单位系统对准确的科学研究至关重要。
2.The imperial system of units of measurement 测量单位系统 is still used in some countries like the USA.
英制测量单位系统仍然在一些国家(如美国)使用。
3.Engineers often convert values from one system of units of measurement 测量单位系统 to another to ensure compatibility.
工程师们经常将值从一个测量单位系统转换为另一个,以确保兼容性。
4.In science, the SI is the most widely used system of units of measurement 测量单位系统.
在科学中,国际单位制是最广泛使用的测量单位系统。
5.When cooking, it's important to follow the system of units of measurement 测量单位系统 specified in the recipe.
在烹饪时,遵循食谱中指定的测量单位系统非常重要。
作文
The concept of a system of units of measurement is fundamental in both scientific and everyday contexts. A system of units of measurement refers to a standardized way of quantifying physical quantities, allowing for clear communication and understanding across various fields. In our daily lives, we encounter different systems of measurement, such as the metric system and the imperial system. Each of these systems has its own set of units for measuring length, mass, volume, and other properties.For instance, in the metric system, which is widely used around the world, length is measured in meters, mass in kilograms, and volume in liters. This system is based on powers of ten, making it relatively easy to convert between units. For example, one kilometer equals one thousand meters, and one liter equals one thousand milliliters. The simplicity and uniformity of the metric system contribute to its global acceptance, especially in scientific research where precision is crucial.On the other hand, the imperial system, which is primarily used in the United States, includes units such as inches, pounds, and gallons. This system can often be more complicated due to its lack of a consistent conversion factor. For example, there are 12 inches in a foot and 16 ounces in a pound, which can lead to confusion when converting measurements. Despite this complexity, the imperial system remains popular in certain regions and industries, illustrating the importance of context when discussing a system of units of measurement.The significance of a system of units of measurement extends beyond personal use; it plays a critical role in fields such as engineering, physics, and chemistry. Scientists and engineers rely on precise measurements to ensure that their calculations and experiments yield accurate results. Without a standardized system of units of measurement, collaboration between professionals from different countries or disciplines could become challenging, leading to misunderstandings and errors.Moreover, international organizations, such as the International System of Units (SI), have been established to promote consistency in measurements worldwide. The SI system is based on seven base units: meter, kilogram, second, ampere, kelvin, mole, and candela. These units serve as the foundation for derived units, allowing for the measurement of a vast array of physical phenomena. By adhering to a standardized system of units of measurement, scientists can share their findings and replicate experiments with confidence, fostering advancement in technology and knowledge.In conclusion, a system of units of measurement is an essential component of effective communication in both everyday life and specialized fields. Understanding the various systems and their applications allows individuals to navigate the complexities of measurement confidently. Whether utilizing the metric system or the imperial system, the key lies in recognizing the importance of standardization and clarity in conveying information. As our world becomes increasingly interconnected, the need for a unified system of units of measurement will only grow, underscoring the value of precision in our measurements and the communication of ideas across borders and disciplines.
测量单位系统的概念在科学和日常生活中都是基础性的。测量单位系统指的是一种标准化的量化物理量的方式,允许在各个领域进行清晰的沟通和理解。在我们的日常生活中,我们会遇到不同的测量系统,比如公制系统和英制系统。这些系统各自拥有自己的一套测量长度、质量、体积等属性的单位。例如,在广泛使用的公制系统中,长度以米为单位,质量以千克为单位,体积以升为单位。这个系统是基于十的幂,使得单位之间的转换相对简单。例如,一公里等于一千米,一升等于一千毫升。公制系统的简单性和统一性促成了它在全球的接受,特别是在科学研究中,精确性至关重要。另一方面,主要在美国使用的英制系统包括英寸、磅和加仑等单位。由于缺乏一致的转换因子,这个系统往往更为复杂。例如,一英尺有12英寸,一磅有16盎司,这在转换测量时可能会导致困惑。尽管这种复杂性,英制系统在某些地区和行业仍然流行,说明在讨论测量单位系统时,背景的重要性。测量单位系统的重要性不仅限于个人使用;它在工程、物理和化学等领域也发挥着关键作用。科学家和工程师依赖精确的测量来确保他们的计算和实验产生准确的结果。如果没有标准化的测量单位系统,来自不同国家或学科的专业人士之间的合作可能会变得困难,从而导致误解和错误。此外,国际组织,如国际单位制(SI),已经建立起来以促进全球范围内测量的一致性。SI系统基于七个基本单位:米、千克、秒、安培、开尔文、摩尔和坎德拉。这些单位作为衍生单位的基础,允许对各种物理现象进行测量。通过遵循标准化的测量单位系统,科学家可以自信地分享他们的发现和复制实验,促进技术和知识的进步。总之,测量单位系统是有效沟通的一个基本组成部分,无论是在日常生活中还是在专业领域。理解各种系统及其应用使个人能够自信地应对测量的复杂性。无论是使用公制系统还是英制系统,关键在于认识到标准化和清晰传达信息的重要性。随着我们的世界变得越来越互联,统一的测量单位系统的需求只会增加,强调了我们在测量和跨越国界与学科交流思想时精确性的价值。
相关单词
