skin resistance

简明释义

表面摩擦阻力

英英释义

例句

1.Certain skin conditions can lead to a decrease in skin resistance 皮肤电阻, making the skin more susceptible to infections.

某些皮肤病会导致皮肤电阻 skin resistance降低，使皮肤更容易受到感染。

2.The doctor explained that increased skin resistance 皮肤电阻 can affect the results of the electrical conductivity tests.

医生解释说，增加的皮肤电阻 skin resistance可能会影响电导测试的结果。

3.Athletes often monitor their skin resistance 皮肤电阻 to optimize hydration levels during training.

运动员通常监测他们的皮肤电阻 skin resistance以优化训练期间的水分水平。

4.In dry weather, your skin resistance 皮肤电阻 may increase, making it harder for moisture to penetrate.

在干燥的天气中，你的皮肤电阻 skin resistance可能会增加，使水分更难渗透。

5.The technician used a device to measure the skin resistance 皮肤电阻 of patients before starting the treatment.

技术人员在开始治疗之前使用设备测量患者的皮肤电阻 skin resistance。

作文

The concept of skin resistance refers to the electrical resistance offered by the skin when an electric current passes through it. This phenomenon is crucial in various fields, including medicine, psychology, and even engineering. Understanding skin resistance can provide insights into how our bodies respond to electrical stimuli, which has implications for both health and technology. In the medical field, skin resistance plays a vital role in electrocardiograms (ECGs) and other diagnostic tools. When electrodes are placed on the skin to measure electrical activity in the heart, the skin resistance can affect the accuracy of the readings. High skin resistance can lead to poor signal quality, making it difficult for healthcare professionals to diagnose conditions accurately. Therefore, understanding and managing skin resistance is essential for obtaining reliable medical data. Moreover, in psychological studies, skin resistance is often measured as part of galvanic skin response (GSR) tests. These tests evaluate changes in skin conductance that occur due to emotional arousal. When a person experiences stress or excitement, their skin resistance decreases, allowing more electrical current to flow through the skin. Researchers utilize this information to understand human emotions better and study responses to various stimuli. By analyzing skin resistance, psychologists can gain insights into the subconscious reactions of individuals during different situations. In the realm of engineering, particularly in the development of wearable technology, skin resistance is a critical factor. Devices designed to monitor health metrics, such as heart rate or sweat levels, must account for variations in skin resistance. For instance, a fitness tracker that measures heart rate through the skin needs to ensure that it can maintain accurate readings despite changes in skin resistance caused by factors like temperature, moisture, or even skin type. Engineers work diligently to create sensors that can adapt to these variations, ensuring that the data collected is both accurate and reliable. Furthermore, skin resistance can also be influenced by external factors such as skin hydration, temperature, and even the presence of lotions or oils. This variability makes it essential for researchers and practitioners to consider these factors when interpreting results related to skin resistance. For instance, during a GSR test, if a participant has excessively dry skin, their skin resistance may be higher than normal, potentially skewing the data. In conclusion, the concept of skin resistance is multifaceted and holds significant importance across various disciplines. From medical diagnostics to psychological assessments and wearable technology, understanding skin resistance allows professionals to make informed decisions and improve the accuracy of their findings. As technology advances and our understanding of human physiology deepens, the study of skin resistance will continue to play a crucial role in enhancing both health outcomes and technological innovations. Recognizing the implications of skin resistance can ultimately lead to better practices and advancements in numerous fields.

“皮肤电阻”这一概念是指当电流通过皮肤时，皮肤所提供的电阻。这一现象在医学、心理学甚至工程等多个领域中都至关重要。理解“皮肤电阻”可以为我们提供关于身体如何响应电刺激的见解，这对健康和技术都有重要影响。在医学领域，“皮肤电阻”在心电图（ECG）和其他诊断工具中发挥着重要作用。当电极放置在皮肤上以测量心脏的电活动时，“皮肤电阻”会影响读数的准确性。高“皮肤电阻”可能导致信号质量差，使医疗专业人员难以准确诊断疾病。因此，理解和管理“皮肤电阻”对于获取可靠的医学数据至关重要。此外，在心理学研究中，“皮肤电阻”常常作为皮肤电反应（GSR）测试的一部分进行测量。这些测试评估由于情绪激动而引起的皮肤导电性变化。当一个人经历压力或兴奋时，他们的“皮肤电阻”会降低，允许更多的电流通过皮肤。研究人员利用这些信息来更好地理解人类情感，并研究对各种刺激的反应。通过分析“皮肤电阻”，心理学家可以深入了解个体在不同情况下的潜意识反应。在工程领域，尤其是在可穿戴技术的发展中，“皮肤电阻”是一个关键因素。旨在监测健康指标（如心率或汗水水平）的设备必须考虑“皮肤电阻”的变化。例如，通过皮肤测量心率的健身追踪器需要确保能够保持准确的读数，尽管“皮肤电阻”因温度、湿度甚至肤质的变化而变化。工程师们努力开发能够适应这些变化的传感器，以确保收集的数据既准确又可靠。此外，“皮肤电阻”还可能受到外部因素的影响，如皮肤水分、温度，甚至是润肤霜或油的存在。这种变异性使得研究人员和从业者在解释与“皮肤电阻”相关的结果时必须考虑这些因素。例如，在GSR测试中，如果参与者的皮肤过于干燥，他们的“皮肤电阻”可能会高于正常水平，从而可能扭曲数据。总之，“皮肤电阻”这一概念是多方面的，在多个学科中具有重要意义。从医学诊断到心理评估，再到可穿戴技术，理解“皮肤电阻”使专业人士能够做出明智的决策，提高他们发现的准确性。随着技术的进步和我们对人体生理的深入理解，“皮肤电阻”的研究将继续在改善健康结果和技术创新中发挥关键作用。认识到“皮肤电阻”的影响最终可以导致更好的实践和各个领域的进步。