acidometer

简明释义

英[/ˌæs.ɪˈdɒm.ɪ.tər/]美[/ˌæs.ɪˈdɒm.ɪ.tər/]

n. [分化] 酸度计

英英释义

单词用法

同义词

反义词

例句

1.The acidometer was mainly composed of plough blade motor, cleaning plough blade, temperature detecting electrode, stibium electrode, reference electrode and hood.

该酸度计主要由刮板电机、清洗刮板、温度测量电极、锑电级、参比电极、防护罩等组成。

2.The acidometer was mainly composed of plough blade motor, cleaning plough blade, temperature detecting electrode, stibium electrode, reference electrode and hood.

该酸度计主要由刮板电机、清洗刮板、温度测量电极、锑电级、参比电极、防护罩等组成。

3.In the laboratory, an acidometer is essential for determining pH levels.

在实验室中，酸度计对于确定pH值是必不可少的。

4.Before starting the experiment, make sure the acidometer is calibrated correctly.

在开始实验之前，请确保酸度计已正确校准。

5.The wine maker checked the acidity with an acidometer to ensure quality.

酿酒师使用酸度计检查酸度以确保质量。

6.The chemist used an acidometer to measure the acidity of the solution.

化学家使用酸度计来测量溶液的酸性。

7.An acidometer can help determine if the soil is suitable for certain crops.

一个酸度计可以帮助判断土壤是否适合某些作物。

作文

The term acidometer refers to a device used for measuring the acidity or pH level of a solution. This instrument plays a crucial role in various fields, including chemistry, biology, and environmental science. Understanding how an acidometer works and its applications can provide insights into the importance of pH measurement in everyday life.In chemistry, the pH level of a solution determines its acidity or alkalinity. The scale ranges from 0 to 14, where a pH of 7 is considered neutral, below 7 indicates acidity, and above 7 indicates alkalinity. An acidometer is essential for scientists who need to maintain specific pH levels in their experiments. For instance, when conducting a reaction that requires a certain acidity, researchers must monitor the pH closely to ensure optimal conditions. Failure to do so could lead to inaccurate results or even dangerous reactions.Moreover, the use of an acidometer extends beyond the laboratory. In agriculture, farmers often utilize this device to test soil acidity. Soil pH can significantly affect plant growth and nutrient availability. By using an acidometer, farmers can determine whether their soil is too acidic or alkaline and make necessary adjustments, such as adding lime to raise pH or sulfur to lower it. This practice helps in enhancing crop yields and maintaining soil health.In addition to agriculture, environmental scientists rely on acidometers to monitor the pH of water bodies. Acid rain, which results from industrial pollution, can drastically alter the pH of lakes and rivers, harming aquatic life. By regularly measuring pH levels with an acidometer, scientists can assess the health of these ecosystems and take action to mitigate pollution effects.Furthermore, the food industry also benefits from the use of acidometers. Many food products require specific pH levels for preservation and safety. For example, the fermentation process in yogurt production relies on maintaining an acidic environment. Food manufacturers use acidometers to ensure that their products meet safety standards and maintain quality. This not only protects consumers but also enhances the overall flavor and texture of the food.In conclusion, the acidometer is a vital instrument in various sectors, from research laboratories to agricultural fields and environmental monitoring. Its ability to accurately measure acidity levels enables professionals to make informed decisions that impact health, safety, and productivity. As we continue to face environmental challenges and strive for sustainable practices, the role of the acidometer becomes increasingly important. By understanding and utilizing this device, we can better manage our resources and protect our planet for future generations. Therefore, the significance of the acidometer cannot be overstated; it is a key tool in our quest for knowledge and improvement in many aspects of life.

“酸度计”是指用于测量溶液酸度或pH值的设备。该仪器在化学、生物学和环境科学等多个领域发挥着至关重要的作用。理解酸度计的工作原理及其应用，可以深入了解pH测量在日常生活中的重要性。在化学中，溶液的pH值决定了其酸性或碱性。pH值范围从0到14，其中pH值为7被视为中性，低于7表示酸性，高于7表示碱性。酸度计对于需要在实验中维持特定pH值的科学家至关重要。例如，在进行需要一定酸度的反应时，研究人员必须密切监测pH，以确保最佳条件。如果不这样做，可能会导致结果不准确，甚至引发危险反应。此外，酸度计的使用超出了实验室。在农业中，农民通常利用这种设备来测试土壤酸度。土壤pH对植物生长和养分可用性有显著影响。通过使用酸度计，农民可以确定他们的土壤是否过于酸性或碱性，并进行必要的调整，例如添加石灰以提高pH或硫以降低pH。这种做法有助于提高作物产量并维护土壤健康。除了农业，环境科学家还依赖酸度计监测水体的pH值。酸雨是由工业污染引起的，会极大地改变湖泊和河流的pH值，危害水生生物。通过定期使用酸度计测量pH值，科学家可以评估这些生态系统的健康状况，并采取措施减轻污染影响。此外，食品行业也受益于酸度计的使用。许多食品产品需要特定的pH值以便于保存和安全。例如，酸奶生产中的发酵过程依赖于维持酸性环境。食品制造商使用酸度计确保其产品符合安全标准并保持质量。这不仅保护了消费者，还增强了食品的整体风味和质地。总之，酸度计是多个行业中的重要仪器，从研究实验室到农业领域，再到环境监测。它准确测量酸度水平的能力使专业人士能够做出影响健康、安全和生产力的明智决策。随着我们继续面临环境挑战并努力实现可持续实践，酸度计的作用变得愈加重要。通过理解和利用这种设备，我们可以更好地管理资源，保护我们的星球，为未来几代人创造更好的环境。因此，酸度计的重要性不容小觑；它是我们在生活的许多方面追求知识和改善的关键工具。