thermometric scale

简明释义

温标

英英释义

例句

1.In scientific experiments, it is crucial to use a precise thermometric scale (温度计刻度) to ensure accurate readings.

在科学实验中，使用精确的thermometric scale（温度计刻度）以确保读数准确是至关重要的。

2.The thermometric scale (温度计刻度) helps in comparing temperature changes over time.

温度计刻度thermometric scale有助于比较温度随时间的变化。

3.The Kelvin thermometric scale (温度计刻度) is often used in scientific contexts.

开尔文thermometric scale（温度计刻度）通常用于科学领域。

4.Different regions may prefer different thermometric scales (温度计刻度) for weather reporting.

不同地区可能会偏好不同的thermometric scales（温度计刻度）来进行天气报告。

5.The Celsius and Fahrenheit systems are two common types of the thermometric scale (温度计刻度).

摄氏和华氏系统是两种常见的thermometric scale（温度计刻度）。

作文

The concept of a thermometric scale is fundamental in the field of thermodynamics and everyday life. A thermometric scale is a system that allows us to measure temperature, providing a reference point for understanding how hot or cold an object is. There are several types of thermometric scales, with the most commonly used being Celsius, Fahrenheit, and Kelvin. Each of these scales has its unique characteristics and applications, making it essential to understand their differences and uses.The Celsius scale, also known as centigrade, is widely used around the world, especially in scientific contexts. It is based on the freezing and boiling points of water, which are defined as 0 degrees Celsius (°C) and 100 degrees Celsius (°C), respectively. This scale is particularly intuitive because it relates directly to the properties of water, which is a common substance in our daily lives. The Celsius thermometric scale is favored in most countries for weather reporting and scientific research due to its simplicity and ease of use.On the other hand, the Fahrenheit scale is primarily used in the United States and some Caribbean nations. In this thermometric scale, the freezing point of water is set at 32 degrees Fahrenheit (°F), and the boiling point at 212 degrees Fahrenheit (°F). The Fahrenheit scale was developed by Daniel Gabriel Fahrenheit in the early 18th century and is based on a different set of reference points, which can make it less intuitive for those accustomed to the Celsius scale. However, many people in the U.S. find it easier to relate to temperature changes within the typical ranges experienced in everyday life.The Kelvin scale, named after the Scottish physicist William Thomson, 1st Baron Kelvin, is the absolute thermometric scale used in scientific contexts. Unlike the Celsius and Fahrenheit scales, the Kelvin scale does not have negative numbers. The zero point, known as absolute zero, is the theoretical temperature where all molecular motion ceases. On the Kelvin scale, absolute zero is 0 K, which corresponds to -273.15 °C. This scale is crucial in fields such as physics and engineering, where precise temperature measurements are necessary.Understanding the thermometric scale is vital not only for scientific applications but also for everyday activities. For instance, cooking often requires precise temperature control, whether one is baking a cake or frying food. Knowing the correct temperature on the appropriate thermometric scale can significantly affect the outcome of a recipe. Similarly, in medicine, accurate temperature readings are critical for diagnosing illnesses or monitoring patients’ conditions.In conclusion, the thermometric scale is an essential tool that helps us quantify temperature in various contexts. Whether we are discussing the Celsius, Fahrenheit, or Kelvin scales, each serves a purpose and has its own significance. By understanding these scales, we can better navigate the world around us, from cooking and weather forecasting to scientific research and medical practices. As we continue to advance in technology and science, the importance of accurately measuring temperature through various thermometric scales will remain a cornerstone of human knowledge and progress.

温度计量表的概念在热力学和日常生活中至关重要。thermometric scale是一个系统，用于测量温度，为我们理解物体的冷热提供参考点。有几种类型的thermometric scales，最常用的是摄氏度、华氏度和开尔文度。每种这些尺度都有其独特的特性和应用，因此了解它们之间的差异和用途是至关重要的。摄氏度，又称为“分度”，在世界各地广泛使用，尤其是在科学环境中。它基于水的冰点和沸点，分别定义为0摄氏度（°C）和100摄氏度（°C）。这个尺度特别直观，因为它直接与水的性质相关，而水是我们日常生活中的常见物质。在大多数国家，摄氏度thermometric scale因其简单易用而被用于天气报告和科学研究。另一方面，华氏度主要在美国和一些加勒比国家使用。在这个thermometric scale中，水的冰点设定为32华氏度（°F），沸点为212华氏度（°F）。华氏度尺度由丹尼尔·加布里埃尔·华氏在18世纪初开发，基于不同的参考点，这使得对于习惯于摄氏度的人来说，它可能不那么直观。然而，许多美国人发现，在日常生活中所经历的典型范围内，华氏度更容易与温度变化相关。开尔文尺度以苏格兰物理学家威廉·汤姆森命名，是科学背景下使用的绝对thermometric scale。与摄氏度和华氏度不同，开尔文尺度没有负数。零点被称为绝对零度，是所有分子运动停止的理论温度。在开尔文尺度上，绝对零度为0 K，等于-273.15 °C。这个尺度在物理学和工程学等领域至关重要，在这些领域中，需要精确的温度测量。理解thermometric scale不仅对科学应用至关重要，也对日常活动至关重要。例如，烹饪通常需要精确的温度控制，无论是烘焙蛋糕还是煎炸食物。知道适当的thermometric scale上的正确温度可以显著影响食谱的结果。同样，在医学中，准确的温度读数对于诊断疾病或监测患者的状况至关重要。总之，thermometric scale是一个基本工具，帮助我们在各种背景下量化温度。无论我们讨论摄氏度、华氏度还是开尔文度，每个尺度都有其目的和重要性。通过理解这些尺度，我们可以更好地驾驭周围的世界，从烹饪和天气预报到科学研究和医学实践。随着我们在技术和科学方面的不断进步，准确测量温度的各种thermometric scales的重要性将始终是人类知识和进步的基石。