maximum power

简明释义

最大功率

英英释义

例句

1.The generator is designed to operate at maximum power 最大功率 during peak demand hours.

该发电机设计为在高峰需求时段以最大功率运行。

2.To achieve maximum power 最大功率, the athlete needs to optimize their training regimen.

为了达到最大功率，运动员需要优化他们的训练计划。

3.The car's engine delivers its maximum power 最大功率 at 6000 RPM.

这辆车的发动机在6000转时提供其最大功率。

4.In order to maintain maximum power 最大功率, the system requires regular maintenance.

为了保持最大功率，系统需要定期维护。

5.This laptop can reach maximum power 最大功率 when running intensive applications.

这款笔记本电脑在运行高强度应用时可以达到最大功率。

作文

In the realm of physics and engineering, the concept of maximum power refers to the greatest amount of energy that can be transferred or converted in a given system over a specific period. This principle is not only crucial for understanding how machines operate but also plays a significant role in various fields such as electronics, automotive engineering, and renewable energy. The maximum power theorem states that to achieve the highest efficiency in power transfer, the load resistance must match the source resistance. This means that to harness the full potential of a power source, one must optimize the conditions under which it operates.For example, consider an electric circuit where a battery supplies power to a resistor. The maximum power delivered to the resistor occurs when its resistance is equal to the internal resistance of the battery. If the resistor's resistance is too high or too low, the power delivered will decrease, illustrating the importance of matching these resistances for optimal performance.In the context of renewable energy, maximizing power output is essential for improving the efficiency of solar panels and wind turbines. Engineers work tirelessly to design systems that can capture and convert energy from natural sources effectively. For instance, in solar energy systems, the angle of solar panels can significantly affect their ability to collect sunlight. By adjusting the panels to ensure they receive direct sunlight for the longest possible duration, we can achieve maximum power output. Similarly, wind turbines are designed with blades that can rotate to face the wind direction, optimizing their exposure to wind flow and thereby maximizing the energy harvested from the wind.The application of maximum power isn't limited to physical systems; it also has implications in business and personal productivity. In the business world, companies strive to maximize their output while minimizing costs. This often involves analyzing processes and identifying areas where efficiency can be improved. By focusing on maximizing power in terms of workforce productivity, companies can achieve better results with the same resources.On a personal level, individuals can apply the principle of maximum power to their daily lives by prioritizing tasks that yield the highest returns on their time and energy investments. Time management techniques, such as the Eisenhower Matrix, help individuals identify what tasks are urgent and important, allowing them to focus their efforts where they can achieve the most significant impact. This approach not only enhances productivity but also leads to a more fulfilling life, as individuals can allocate time to activities that truly matter to them.In conclusion, the concept of maximum power transcends various disciplines, from engineering to personal development. Understanding how to achieve maximum power in different contexts enables us to optimize performance, whether it's in a physical system, a business model, or our personal lives. By recognizing the importance of efficiency and effectiveness, we can harness the full potential of our resources and capabilities. Ultimately, striving for maximum power allows us to make the most of what we have, leading to greater success and satisfaction in our endeavors.

在物理和工程领域，最大功率的概念指的是在特定系统中，在特定时间内可以传输或转换的最大能量。这一原理不仅对于理解机器的运作至关重要，而且在电子学、汽车工程和可再生能源等多个领域也发挥着重要作用。最大功率定理指出，为了实现电力传输的最高效率，负载电阻必须与源电阻相匹配。这意味着，要充分利用电源的潜力，必须优化其运行条件。例如，考虑一个电路，其中电池为电阻提供电力。最大功率传递给电阻发生在其电阻等于电池的内阻时。如果电阻的电阻过高或过低，则传递的功率将减少，这说明为了最佳性能，匹配这些电阻的重要性。在可再生能源的背景下，最大化功率输出对提高太阳能电池板和风力涡轮机的效率至关重要。工程师们不懈努力设计能够有效捕获和转换自然源能量的系统。例如，在太阳能系统中，太阳能电池板的角度会显著影响其收集阳光的能力。通过调整电池板以确保它们尽可能长时间地接受直射阳光，我们可以实现最大功率输出。同样，风力涡轮机的叶片设计成可以旋转以面向风的方向，从而优化它们对风流的暴露，从而最大化从风中收集的能量。最大功率的应用不仅限于物理系统；它在商业和个人生产力方面也有影响。在商业世界中，公司努力最大化产出，同时最小化成本。这通常涉及分析流程并识别可以改进效率的领域。通过关注工作效率的最大化，公司可以在相同资源的情况下取得更好的结果。在个人层面，个人可以通过优先处理那些能带来最高回报的任务，将最大功率的原则应用到日常生活中。时间管理技术，如艾森豪威尔矩阵，帮助个人识别哪些任务是紧急且重要的，从而使他们能够集中精力在能够产生最大影响的地方。这种方法不仅增强了生产力，还导致了更充实的生活，因为个人可以将时间分配给真正重要的活动。总之，最大功率的概念超越了多个学科，从工程到个人发展。理解如何在不同的背景下实现最大功率使我们能够优化表现，无论是在物理系统、商业模型还是我们的个人生活中。通过认识到效率和有效性的重要性，我们可以充分利用我们的资源和能力。最终，追求最大功率使我们能够充分利用所拥有的东西，从而在我们的努力中获得更大的成功和满足。