applied power

简明释义

1. 视在功率; 2. 视功率; 3. 外加功率;

英英释义

例句

1.The engineer calculated the amount of applied power to ensure the machine operates efficiently.

工程师计算了机器运作所需的应用功率以确保其高效运行。

2.The applied power in this circuit affects how much current flows through the components.

这个电路中的应用功率影响着通过组件的电流量。

3.In this experiment, we measured the applied power to determine its effect on the reaction rate.

在这个实验中，我们测量了应用功率以确定其对反应速率的影响。

4.We need to adjust the applied power to improve the performance of the heating element.

我们需要调整应用功率以提高加热元件的性能。

5.Understanding applied power is crucial for optimizing energy consumption in industrial processes.

理解应用功率对于优化工业过程中的能耗至关重要。

作文

In the realm of physics and engineering, the term applied power refers to the actual energy that is utilized to perform work in a system. Unlike theoretical power, which may be calculated under ideal conditions, applied power encompasses the practical aspects of energy consumption and efficiency. Understanding applied power is crucial for engineers and scientists as it directly impacts the design and functionality of various systems, from simple machines to complex industrial processes.One of the most common examples of applied power can be seen in electrical systems. When an electric motor operates, it draws power from a source, but not all of this power is effectively converted into mechanical energy. The difference between the input power and the output power represents the losses due to inefficiencies such as heat generation, friction, and other factors. Therefore, analyzing applied power allows engineers to optimize motor performance, ensuring that the maximum amount of energy is transformed into useful work.Another area where applied power plays a significant role is in renewable energy systems. For instance, wind turbines harness kinetic energy from the wind and convert it into electrical energy. However, the applied power produced by these turbines can vary significantly based on wind speed and turbine design. Engineers must carefully evaluate the applied power to ensure that the turbines operate efficiently under different environmental conditions, maximizing energy output while minimizing wear and tear on the equipment.In the context of automotive engineering, applied power is also a critical factor. Vehicles rely on engines to convert fuel into motion, but the efficiency of this conversion can vary widely. By studying applied power, engineers can improve engine designs, enhance fuel efficiency, and reduce emissions. For example, hybrid vehicles utilize both an internal combustion engine and an electric motor, allowing for better management of applied power and overall energy use.Moreover, the concept of applied power extends beyond mechanical systems. In information technology, servers and data centers consume vast amounts of energy. Understanding how applied power works in these environments can lead to more sustainable practices, such as optimizing cooling systems and reducing idle power consumption. By focusing on applied power, organizations can significantly lower their energy bills and carbon footprints.In conclusion, the concept of applied power is fundamental across various disciplines, including physics, engineering, and environmental science. It emphasizes the importance of not just calculating potential energy but understanding how that energy is used in real-world applications. By mastering the principles of applied power, professionals can innovate and create more efficient systems that benefit both the economy and the environment. As we continue to face challenges related to energy consumption and sustainability, the role of applied power will only become more critical in our quest for effective solutions.

在物理和工程领域，短语applied power指的是在一个系统中实际用于执行工作的能量。与理论功率不同，理论功率是在理想条件下计算的，而applied power则包含了能量消耗和效率的实际方面。理解applied power对工程师和科学家至关重要，因为它直接影响着各种系统的设计和功能，从简单的机器到复杂的工业过程。applied power的一个常见例子可以在电气系统中看到。当电动机运行时，它从电源中抽取电力，但并不是所有的电力都能有效转化为机械能。输入功率和输出功率之间的差异代表了由于热量产生、摩擦和其他因素造成的损失。因此，分析applied power可以让工程师优化电动机性能，确保最大限度地将能量转化为有用的工作。applied power在可再生能源系统中的作用也非常重要。例如，风力涡轮机利用风的动能并将其转化为电能。然而，这些涡轮机产生的applied power可能会因风速和涡轮设计而显著变化。工程师必须仔细评估applied power，以确保涡轮在不同环境条件下高效运行，最大化能量输出，同时最小化设备的磨损。在汽车工程的背景下，applied power也是一个关键因素。车辆依赖发动机将燃料转化为运动，但这种转化的效率可能差异很大。通过研究applied power，工程师可以改善发动机设计，提高燃油效率，并减少排放。例如，混合动力车辆同时利用内燃机和电动机，从而更好地管理applied power和整体能量使用。此外，applied power的概念不仅仅局限于机械系统。在信息技术中，服务器和数据中心消耗大量能量。理解applied power在这些环境中的运作方式可以导致更可持续的实践，例如优化冷却系统和减少空闲功耗。通过关注applied power，组织可以显著降低能源费用和碳足迹。总之，applied power的概念在物理、工程和环境科学等各个学科中都是基础性的。它强调了不仅仅计算潜在能量的重要性，还理解这些能量在现实应用中的使用方式。通过掌握applied power的原则，专业人士可以创新并创造出更高效的系统，既有利于经济，又有利于环境。随着我们继续面临与能源消耗和可持续性相关的挑战，applied power的角色将在我们寻求有效解决方案的过程中变得愈加重要。