alkalinity acidity

简明释义

1. 碱度—酸度; 2. 酸碱度;

英英释义

例句

1.In aquariums, maintaining the right alkalinity acidity 碱度酸度 is crucial for fish health.

在水族箱中，保持适当的alkalinity acidity 碱度酸度 对鱼类健康至关重要。

2.Farmers often test the alkalinity acidity 碱度酸度 of their fields to determine the best crops to plant.

农民经常测试他们田地的alkalinity acidity 碱度酸度 以确定最佳作物种植。

3.The laboratory results indicated an imbalance in alkalinity acidity 碱度酸度 in the lake.

实验室结果显示湖泊中的alkalinity acidity 碱度酸度 不平衡。

4.The water quality test showed that the alkalinity acidity 碱度酸度 levels are within safe limits.

水质测试显示，alkalinity acidity 碱度酸度 水平在安全范围内。

5.Adjusting the alkalinity acidity 碱度酸度 of the soil can improve plant growth.

调整土壤的alkalinity acidity 碱度酸度 可以改善植物生长。

作文

Understanding the balance between alkalinity acidity is crucial in various fields, including chemistry, environmental science, and even agriculture. Alkalinity refers to the capacity of water or soil to neutralize acids, while acidity indicates the presence of acid compounds that can lower the pH level. Together, these two concepts play a significant role in determining the health of ecosystems and the quality of water sources. In chemistry, the alkalinity acidity balance is essential for reactions to occur efficiently. For example, many chemical processes require a specific pH range to function optimally. If the environment is too acidic, it can hinder reactions and lead to undesirable products. Conversely, if the environment is too alkaline, it can also disrupt chemical processes. Therefore, understanding how to measure and adjust alkalinity acidity levels is fundamental for chemists and researchers alike.In environmental science, the alkalinity acidity balance is vital for maintaining healthy aquatic ecosystems. Water bodies with high acidity levels can harm aquatic life, leading to decreased biodiversity. Fish and other organisms often thrive in slightly alkaline waters, which provide a more stable environment for growth and reproduction. Monitoring the alkalinity acidity levels in rivers, lakes, and oceans helps scientists assess the impact of pollution and climate change on these ecosystems.Agriculture is another area where alkalinity acidity plays a critical role. Soil pH affects nutrient availability for plants. Most crops prefer a slightly acidic to neutral pH (around 6 to 7). If the soil is too acidic, it can lead to nutrient deficiencies, while overly alkaline soils can cause nutrient lock-up, making it difficult for plants to absorb essential minerals. Farmers often test their soil's alkalinity acidity levels to determine the necessary amendments to optimize crop yields.Moreover, the interplay between alkalinity acidity is also evident in our daily lives. For instance, when we consume food and beverages, the body's pH balance is influenced by their acidity or alkalinity. A diet high in acidic foods can lead to health issues, such as acid reflux, while a balanced intake of alkaline foods can promote better health and well-being. Therefore, understanding the concept of alkalinity acidity extends beyond scientific disciplines into personal health and nutrition.In conclusion, the relationship between alkalinity acidity is a fundamental aspect of many scientific fields and everyday life. From ensuring optimal chemical reactions to maintaining healthy ecosystems and supporting agricultural practices, the importance of understanding this balance cannot be overstated. As we continue to face environmental challenges and strive for sustainable practices, a deeper comprehension of alkalinity acidity will be essential for fostering a healthier planet and improving our quality of life.

理解碱度酸度之间的平衡在化学、环境科学甚至农业等多个领域都至关重要。碱度是指水或土壤中中和酸的能力，而酸度则表示能降低pH值的酸性化合物的存在。这两个概念共同作用，决定了生态系统的健康和水源的质量。在化学中，碱度酸度的平衡对于反应的有效进行至关重要。例如，许多化学过程需要特定的pH范围才能最佳运行。如果环境过于酸性，将会妨碍反应并导致不良产物的生成。相反，如果环境过于碱性，也会扰乱化学过程。因此，了解如何测量和调整碱度酸度水平对化学家和研究人员来说都是基础。在环境科学中，碱度酸度的平衡对于维持健康的水生生态系统至关重要。高酸度水平的水体可能会对水生生物造成伤害，导致生物多样性下降。鱼类和其他生物通常在稍微碱性的水域中繁荣，这为生长和繁殖提供了更稳定的环境。监测河流、湖泊和海洋中的碱度酸度水平有助于科学家评估污染和气候变化对这些生态系统的影响。农业是另一个碱度酸度发挥关键作用的领域。土壤pH值影响植物的养分可用性。大多数作物更喜欢稍微酸性到中性的pH（约6到7）。如果土壤过于酸性，会导致养分缺乏，而过于碱性的土壤则会导致养分锁定，使植物难以吸收必需矿物质。农民常常测试土壤的碱度酸度水平，以确定优化作物产量所需的改良措施。此外，碱度酸度之间的相互作用在我们的日常生活中也显而易见。例如，当我们摄入食物和饮料时，身体的pH平衡会受到其酸性或碱性的影响。高酸性食物的饮食可能导致健康问题，如胃酸倒流，而均衡摄入碱性食物则可以促进更好的健康和福祉。因此，理解碱度酸度的概念不仅限于科学领域，还延伸到个人健康和营养。总之，碱度酸度之间的关系是许多科学领域和日常生活的基本方面。从确保最佳化学反应到维护健康生态系统以及支持农业实践，理解这一平衡的重要性不言而喻。随着我们继续面临环境挑战并努力实现可持续实践，更深入地理解碱度酸度将对促进一个更健康的星球和改善我们的生活质量至关重要。