degree entigrade

简明释义

摄氏度

英英释义

例句

1.The weather forecast predicts a high of 30 degree entigrade.

天气预报预测最高气温为30摄氏度。

2.You should store the vaccine between 2 and 8 degree entigrade.

你应该将疫苗储存在2到8摄氏度之间。

3.Water boils at 100 degree entigrade under standard atmospheric pressure.

在标准大气压下，水在100摄氏度时沸腾。

4.The laboratory temperature is maintained at a constant 25 degree entigrade.

实验室的温度保持在常数25摄氏度。

5.The recipe calls for baking the cake at 180 degree entigrade.

这个食谱要求在180摄氏度下烘烤蛋糕。

作文

Understanding temperature is essential in many aspects of our daily lives, from cooking to weather forecasting. One of the most commonly used temperature scales is the Celsius scale, which is often referred to as the degree entigrade. In this essay, I will explore the significance of the degree entigrade, its history, and its applications in various fields.The degree entigrade, or Celsius, was developed by the Swedish astronomer Anders Celsius in 1742. He created a scale based on the freezing and boiling points of water, where 0 degrees represents the freezing point and 100 degrees represents the boiling point at standard atmospheric pressure. This simple yet effective scale has made it easier for people to understand temperature changes in everyday situations.One of the key reasons why the degree entigrade is widely adopted is its ease of use. For example, when cooking, recipes often specify temperatures in degrees Celsius. A roast may require an oven temperature of 180 degree entigrade, which is easy for cooks to interpret. Moreover, because the scale is based on the properties of water, it provides a practical reference point that is universally understood.In addition to cooking, the degree entigrade plays a crucial role in scientific research and environmental studies. Scientists often measure temperature in degrees Celsius when conducting experiments, as it allows for consistency and comparability across different studies. For instance, climate change research frequently utilizes the degree entigrade to report temperature anomalies, helping to illustrate the effects of global warming on our planet.Furthermore, the degree entigrade is essential in meteorology. Weather forecasts around the world typically present temperatures in degrees Celsius, making it easier for the general public to understand current and future weather conditions. For instance, a forecast might indicate that the temperature will rise to 25 degree entigrade during the day, which helps individuals plan their activities accordingly.Despite its advantages, the degree entigrade is not the only temperature scale in use. In some countries, particularly the United States, the Fahrenheit scale is more common. This can lead to confusion, especially for travelers or those communicating internationally. For example, a temperature of 32 degrees Fahrenheit corresponds to 0 degree entigrade, which can be a point of misunderstanding for those unfamiliar with both scales.To bridge this gap, it is essential to promote the understanding of the degree entigrade among people from different regions. Educational initiatives can encourage the use of Celsius in schools, emphasizing its relevance in science and daily life. Additionally, technology can aid in this transition, as many digital devices allow users to switch between Celsius and Fahrenheit, providing flexibility and convenience.In conclusion, the degree entigrade is a vital part of our understanding of temperature, influencing various aspects of life, including cooking, science, and weather forecasting. Its historical significance and practical applications make it an indispensable tool for communication and comprehension. As we continue to navigate a world where temperature plays a crucial role, fostering a better understanding of the degree entigrade will undoubtedly enhance our ability to adapt and respond to the challenges posed by climate change and other environmental issues.

理解温度在我们日常生活的许多方面都是至关重要的，从烹饪到天气预报。其中最常用的温度刻度之一是摄氏度，通常被称为度摄氏。在这篇文章中，我将探讨度摄氏的重要性、历史以及在各个领域的应用。度摄氏（或摄氏度）是由瑞典天文学家安德斯·摄尔修斯于1742年开发的。他创建了一个基于水的冰点和沸点的刻度，其中0度代表冰点，100度代表标准大气压下的沸点。这个简单而有效的刻度使人们更容易理解日常情况中的温度变化。度摄氏被广泛采用的关键原因之一是其易用性。例如，在烹饪时，食谱通常以摄氏度指定温度。一道烤肉可能需要180度摄氏的烤箱温度，这对厨师来说易于理解。此外，由于该刻度基于水的特性，它提供了一个普遍理解的实用参考点。除了烹饪之外，度摄氏在科学研究和环境研究中也发挥着至关重要的作用。科学家们在进行实验时通常以摄氏度测量温度，因为这有助于不同研究之间的一致性和可比性。例如，气候变化研究经常利用度摄氏来报告温度异常，帮助说明全球变暖对我们星球的影响。此外，度摄氏在气象学中至关重要。世界各地的天气预报通常以摄氏度呈现温度，使公众更容易理解当前和未来的天气状况。例如，天气预报可能表明白天的温度将升高到25度摄氏，这有助于个人相应地计划他们的活动。尽管有其优势，但度摄氏并不是唯一使用的温度刻度。在一些国家，尤其是美国，华氏度刻度更为常见。这可能导致混淆，特别是对于旅行者或国际交流的人。例如，32华氏度对应于0度摄氏，这对于不熟悉这两种刻度的人来说可能是一个误解的点。为了弥补这一差距，促进人们对度摄氏的理解是至关重要的。教育倡议可以鼓励学校使用摄氏度，强调其在科学和日常生活中的相关性。此外，技术也可以帮助这一过渡，因为许多数字设备允许用户在摄氏度和华氏度之间切换，提供灵活性和便利性。总之，度摄氏是我们理解温度的重要组成部分，影响着生活的各个方面，包括烹饪、科学和天气预报。其历史意义和实际应用使其成为沟通和理解不可或缺的工具。随着我们继续应对温度在其中起着关键作用的世界，促进对度摄氏的更好理解无疑将增强我们适应和应对气候变化及其他环境问题的能力。