power absorption

简明释义

功率吸收

英英释义

例句

1.The research focused on the power absorption 功率吸收 characteristics of different antenna designs.

研究集中于不同天线设计的功率吸收 特性。

2.The engineers conducted tests to measure the power absorption 功率吸收 of the new material under different conditions.

工程师们进行了测试，以测量新材料在不同条件下的功率吸收。

3.Understanding power absorption 功率吸收 in electrical circuits helps in optimizing energy efficiency.

理解电路中的功率吸收 有助于优化能源效率。

4.In audio systems, power absorption 功率吸收 is crucial for determining how much energy is consumed by speakers.

在音频系统中，功率吸收 对于确定扬声器消耗多少能量至关重要。

5.The power absorption 功率吸收 rate of the solar panels was found to be higher than expected during peak sunlight hours.

在阳光最强烈的时段，太阳能电池板的功率吸收 速率被发现高于预期。

作文

Power absorption is a crucial concept in various fields, particularly in engineering and physics. It refers to the process by which a system or material takes in energy from an external source, converting it into another form of energy, typically heat or mechanical work. Understanding power absorption (功率吸收) is essential for designing efficient systems that minimize energy loss and improve performance.In the context of electrical engineering, power absorption (功率吸收) can be observed in resistors, where electrical energy is transformed into heat energy due to resistance. This phenomenon is described by Joule's law, which states that the power of heat generated is proportional to the square of the current flowing through the resistor multiplied by its resistance. Engineers must account for power absorption (功率吸收) to ensure that components do not overheat, which could lead to failure and reduced efficiency.In mechanical systems, power absorption (功率吸收) plays an important role in understanding how machines convert energy. For instance, in hydraulic systems, fluid power is absorbed and converted into mechanical power to perform work. The efficiency of such systems depends on minimizing losses during power absorption (功率吸收), which can occur due to friction and turbulence.Furthermore, in renewable energy applications, power absorption (功率吸收) is vital for optimizing energy capture from sources like wind and solar. Wind turbines, for example, must effectively absorb the kinetic energy of the wind to convert it into electrical energy. The design of turbine blades is critical in maximizing power absorption (功率吸收) while minimizing drag and other losses. Similarly, solar panels are designed to maximize the power absorption (功率吸收) of sunlight, ensuring that as much solar energy as possible is converted into usable electricity.In the realm of acoustics, power absorption (功率吸收) refers to how materials absorb sound energy. Acoustic panels are designed to enhance power absorption (功率吸收) to reduce echo and improve sound quality in various environments, such as auditoriums and recording studios. The effectiveness of these materials is measured by their absorption coefficients, which indicate how well they can convert sound energy into heat.Overall, the concept of power absorption (功率吸收) is integral to multiple disciplines, influencing everything from the design of electronic devices to the efficiency of large-scale energy systems. As technology advances, understanding and optimizing power absorption (功率吸收) will be key to developing more sustainable and efficient systems. By focusing on this aspect, engineers and scientists can contribute to a future where energy is used more wisely, ultimately benefiting both the economy and the environment. In conclusion, mastering the principles of power absorption (功率吸收) is essential for anyone involved in energy-related fields, as it lays the foundation for innovation and improvement in energy efficiency.

功率吸收是多个领域中一个至关重要的概念，尤其是在工程和物理学中。它指的是一个系统或材料从外部源吸收能量的过程，将其转化为另一种形式的能量，通常是热能或机械功。理解功率吸收（power absorption）对于设计高效的系统以最小化能量损失并提高性能至关重要。在电气工程的背景下，功率吸收（power absorption）可以在电阻器中观察到，其中电能因电阻而转化为热能。这一现象由焦耳定律描述，该定律指出产生的热功率与流经电阻器的电流的平方成正比，并乘以其电阻。工程师必须考虑功率吸收（power absorption），以确保组件不会过热，这可能导致故障和效率降低。在机械系统中，功率吸收（power absorption）在理解机器如何转化能量方面发挥着重要作用。例如，在液压系统中，流体动力被吸收并转化为机械功以执行工作。这类系统的效率取决于在功率吸收（power absorption）过程中最小化损失，这些损失可能由于摩擦和湍流而发生。此外，在可再生能源应用中，功率吸收（power absorption）对于优化从风能和太阳能等来源捕获能量至关重要。例如，风力涡轮机必须有效地吸收风的动能，以将其转化为电能。涡轮叶片的设计对于最大化功率吸收（power absorption）同时最小化阻力和其他损失至关重要。同样，太阳能电池板的设计旨在最大化功率吸收（power absorption）阳光，确保尽可能多的太阳能转化为可用电力。在声学领域，功率吸收（power absorption）指的是材料吸收声能的能力。声学面板的设计旨在增强功率吸收（power absorption），以减少回声并改善各种环境中的音质，例如礼堂和录音室。这些材料的有效性通过其吸收系数来衡量，吸收系数表明它们将声能转化为热能的能力。总体而言，功率吸收（power absorption）这一概念对多个学科至关重要，影响着从电子设备设计到大规模能源系统效率的方方面面。随着技术的进步，理解和优化功率吸收（power absorption）将是开发更可持续和高效系统的关键。通过关注这一方面，工程师和科学家能够为未来的发展做出贡献，使能源使用更加合理，最终使经济和环境受益。总之，掌握功率吸收（power absorption）的原理对于任何参与能源相关领域的人来说都是必不可少的，因为它为能源效率的创新和改进奠定了基础。