temperature effect

简明释义

温度效应

英英释义

例句

1.The study aimed to analyze the temperature effect 温度效应 on the growth rate of plants.

这项研究旨在分析植物生长速率的 temperature effect 温度效应。

2.In climate science, understanding the temperature effect 温度效应 is crucial for predicting weather patterns.

在气候科学中，理解 temperature effect 温度效应 对于预测天气模式至关重要。

3.Manufacturers need to account for the temperature effect 温度效应 when designing electronic devices.

制造商在设计电子设备时需要考虑 temperature effect 温度效应。

4.Researchers found that the temperature effect 温度效应 significantly influenced chemical reaction rates.

研究人员发现，temperature effect 温度效应 显著影响了化学反应速率。

5.The temperature effect 温度效应 on metal fatigue is an important consideration in engineering.

金属疲劳的 temperature effect 温度效应 是工程中的一个重要考虑因素。

作文

The concept of temperature effect refers to how temperature variations can influence various physical, chemical, and biological processes. Understanding this phenomenon is crucial in numerous fields, including environmental science, chemistry, and biology. For instance, in chemistry, the temperature effect plays a significant role in reaction rates. According to the collision theory, an increase in temperature typically results in more kinetic energy for the reacting molecules, which leads to a higher frequency of collisions and, consequently, an increased reaction rate. This principle is essential in industrial applications where optimizing reaction conditions can lead to greater efficiency and yield.In the realm of biology, the temperature effect is particularly evident in the study of ecosystems and climate change. Many organisms have specific temperature ranges in which they thrive. For example, coral reefs are highly sensitive to temperature changes; even a slight increase in sea temperature can lead to coral bleaching, a phenomenon that threatens marine biodiversity. Understanding the temperature effect in this context allows scientists to predict how climate change might impact various species and ecosystems.Moreover, the temperature effect is also observed in daily life, such as when cooking food. The temperature at which food is cooked can significantly affect its texture, flavor, and nutritional value. For instance, cooking vegetables at high temperatures for a short duration can preserve their nutrients better than overcooking them.In engineering, the temperature effect is a critical factor in material science. Different materials expand or contract at different rates when subjected to temperature changes. This property must be taken into account when designing structures, as it can affect the integrity and longevity of buildings and bridges. Engineers must consider the temperature effect to ensure that materials will withstand temperature fluctuations without compromising safety.In conclusion, the temperature effect is a multifaceted phenomenon that affects a wide array of disciplines. From influencing chemical reactions to impacting biological systems and engineering designs, understanding how temperature variations affect processes is vital. As global temperatures continue to rise due to climate change, the implications of the temperature effect will become increasingly important for scientists, policymakers, and the general public alike. By studying and acknowledging the temperature effect, we can better prepare for the challenges posed by a changing environment and strive toward more sustainable practices across various sectors.

“温度效应”这一概念是指温度变化如何影响各种物理、化学和生物过程。理解这一现象在环境科学、化学和生物学等多个领域中至关重要。例如，在化学中，“温度效应”在反应速率中起着重要作用。根据碰撞理论，温度的升高通常会导致反应分子具有更多的动能，从而增加碰撞频率，进而提高反应速率。这一原理在工业应用中至关重要，因为优化反应条件可以提高效率和产量。在生物学领域，“温度效应”在生态系统和气候变化的研究中尤为明显。许多生物体都有特定的温度范围，在这个范围内它们才能繁衍生息。例如，珊瑚礁对温度变化非常敏感；即使海水温度略微上升，也会导致珊瑚白化，这一现象威胁到海洋生物多样性。在这种情况下理解“温度效应”使科学家能够预测气候变化可能对各种物种和生态系统产生的影响。此外，“温度效应”在日常生活中也有所体现，例如在烹饪食物时。食物烹饪的温度可以显著影响其质地、风味和营养价值。例如，以高温短时间烹饪蔬菜可以比过度烹饪更好地保留其营养。在工程学中，“温度效应”是材料科学中的一个关键因素。不同材料在经历温度变化时会以不同的速率膨胀或收缩。设计结构时必须考虑这一特性，因为它会影响建筑物和桥梁的完整性和耐久性。工程师必须考虑“温度效应”，以确保材料在温度波动下能够承受而不危及安全。总之，“温度效应”是一个多方面的现象，影响着广泛的学科。从影响化学反应到影响生物系统和工程设计，理解温度变化如何影响过程至关重要。随着全球温度因气候变化而持续上升，“温度效应”的影响将对科学家、政策制定者和公众变得越来越重要。通过研究和承认“温度效应”，我们可以更好地为变化环境带来的挑战做好准备，并努力在各个行业实现更可持续的实践。