optimum temperature
简明释义
最适温度
英英释义
The optimum temperature is the temperature at which a particular process, reaction, or organism functions most effectively. | 最佳温度是指特定过程、反应或生物体最有效运作的温度。 |
例句
1.Plants grow most efficiently when the soil is maintained at an optimum temperature 最佳温度 of 20-25 degrees Celsius.
植物在土壤维持在20-25摄氏度的optimum temperature 最佳温度时生长最为高效。
2.The optimum temperature 最佳温度 for brewing coffee is typically between 195 and 205 degrees Fahrenheit.
冲泡咖啡的optimum temperature 最佳温度通常在195到205华氏度之间。
3.For optimal performance, the machine should operate at its optimum temperature 最佳温度 of 75 degrees Fahrenheit.
为了获得最佳性能,机器应在其optimum temperature 最佳温度75华氏度下运行。
4.The fermentation process of yeast occurs best at an optimum temperature 最佳温度 of around 30 degrees Celsius.
酵母的发酵过程在大约30摄氏度的optimum temperature 最佳温度下效果最好。
5.Cooking chicken requires an optimum temperature 最佳温度 of 165 degrees Fahrenheit to ensure it is safe to eat.
烹饪鸡肉需要达到165华氏度的optimum temperature 最佳温度以确保安全食用。
作文
The concept of optimum temperature refers to the ideal temperature range that allows a particular process or organism to function at its best. This term is often used in various scientific fields, including biology, chemistry, and environmental science. Understanding the optimum temperature is crucial for maximizing efficiency and productivity in many applications, from agriculture to industrial processes.In biology, for example, every organism has a specific optimum temperature at which it thrives. For many plants and animals, this temperature range is essential for growth, reproduction, and overall health. If the temperature deviates too far from this range, it can lead to stress, reduced metabolic rates, and even death. For instance, some fish species have a narrow optimum temperature range; if the water temperature rises too high due to climate change, it can severely impact their survival.Similarly, in agriculture, understanding the optimum temperature for crops is vital for ensuring maximum yield. Farmers must monitor weather patterns and soil temperatures to plant and harvest at the right times. For instance, certain vegetables may require cooler temperatures during germination, while others may need warmer conditions to mature. By adhering to the optimum temperature guidelines, farmers can enhance their crop production and reduce losses due to unfavorable conditions.In the realm of chemistry, reactions often have an optimum temperature at which they proceed most efficiently. For instance, enzymes—biological catalysts—typically have a specific optimum temperature that maximizes their activity. If the temperature is too low, the reaction rate slows down, while excessively high temperatures can denature the enzyme, rendering it ineffective. Understanding these temperature dynamics is essential for industries that rely on chemical reactions, such as pharmaceuticals and food production.Moreover, the concept of optimum temperature extends beyond living organisms and chemical reactions. In environmental science, researchers study how climate change affects ecosystems, particularly concerning the optimum temperature ranges of different species. As global temperatures rise, many species may find themselves outside their optimum temperature zones, leading to shifts in biodiversity and ecosystem stability.In conclusion, the optimum temperature is a critical factor in various scientific disciplines. Whether in biology, agriculture, chemistry, or environmental science, recognizing and understanding the optimum temperature is essential for promoting health, enhancing productivity, and ensuring sustainability. As we face challenges such as climate change and resource management, the importance of maintaining conditions within the optimum temperature range cannot be overstated. By prioritizing research and practices that respect these temperature thresholds, we can work towards a more sustainable future for all living organisms and the environments they inhabit.
“最佳温度”这一概念指的是允许特定过程或生物体以最佳状态运作的理想温度范围。这个术语常用于生物学、化学和环境科学等多个科学领域。理解“最佳温度”对最大化许多应用中的效率和生产力至关重要,从农业到工业过程。例如,在生物学中,每种生物都有一个特定的“最佳温度”,在这个温度下它们能够茁壮成长。对于许多植物和动物来说,这个温度范围对于生长、繁殖和整体健康是至关重要的。如果温度过于偏离这个范围,可能会导致压力、代谢率降低甚至死亡。例如,一些鱼类物种具有狭窄的“最佳温度”范围;如果由于气候变化水温升高,可能会严重影响它们的生存。同样,在农业中,理解作物的“最佳温度”对于确保最大产量至关重要。农民必须监测天气模式和土壤温度,以便在合适的时间播种和收获。例如,某些蔬菜在发芽期间可能需要较低的温度,而其他蔬菜则可能需要更温暖的条件才能成熟。通过遵循“最佳温度”指南,农民可以提高作物生产并减少因不利条件造成的损失。在化学领域,反应通常有一个“最佳温度”,在这个温度下它们最有效地进行。例如,酶——生物催化剂——通常具有特定的“最佳温度”,以最大化其活性。如果温度太低,反应速率会减慢,而过高的温度可能会使酶变性,使其失效。理解这些温度动态对于依赖化学反应的行业(如制药和食品生产)至关重要。此外,“最佳温度”的概念不仅限于生物体和化学反应。在环境科学中,研究人员研究气候变化如何影响生态系统,特别是不同物种的“最佳温度”范围。随着全球气温上升,许多物种可能发现自己处于“最佳温度”区域之外,导致生物多样性和生态系统稳定性的变化。总之,“最佳温度”是各科学学科中的一个关键因素。无论是在生物学、农业、化学还是环境科学中,认识和理解“最佳温度”对于促进健康、提高生产力和确保可持续性至关重要。面对气候变化和资源管理等挑战,保持条件在“最佳温度”范围内的重要性不容小觑。通过优先考虑尊重这些温度阈值的研究和实践,我们可以为所有生物体及其栖息环境的可持续未来而努力。
相关单词
