propelling power deduction

简明释义

机舱容积吨位扣除额

英英释义

例句

1.Understanding propelling power deduction helps engineers design better propulsion systems.

理解推进力扣除有助于工程师设计更好的推进系统。

2.The team used propelling power deduction to analyze the energy consumption of the new electric motor.

团队使用推进力扣除分析新电动马达的能耗。

3.In the context of aviation, propelling power deduction is crucial for calculating fuel efficiency.

在航空领域，推进力扣除对于计算燃油效率至关重要。

4.The engineer explained the concept of propelling power deduction during the presentation, emphasizing its importance in optimizing vehicle performance.

工程师在演讲中解释了推进力扣除的概念，强调其在优化车辆性能中的重要性。

5.The research paper discussed the implications of propelling power deduction on hybrid vehicle technology.

研究论文讨论了推进力扣除对混合动力汽车技术的影响。

作文

In the realm of physics and engineering, the concept of propelling power deduction plays a crucial role in understanding how forces are applied to move objects. This term refers to the process of calculating the effective power that is available to propel an object forward after accounting for various losses due to friction, air resistance, and other opposing forces. The ability to accurately determine this power is essential for designing efficient vehicles, machinery, and even spacecraft.When engineers design a new vehicle, they must consider many factors that affect its performance. One of the primary goals is to maximize the propelling power deduction to ensure that the vehicle can achieve its desired speed and efficiency. For instance, in automotive engineering, the engine's output power must be analyzed alongside the drag force exerted by the air and the rolling resistance from the tires. By calculating these opposing forces, engineers can determine how much of the engine's power is actually utilized for forward motion.Moreover, the propelling power deduction is not only limited to vehicles but also extends to various applications in daily life. For example, in sports, athletes often analyze their performance metrics to understand how much energy they are effectively using to propel themselves forward, whether in running, swimming, or cycling. Coaches and trainers utilize this information to optimize training regimens, ensuring that athletes can maximize their potential.In addition, the concept of propelling power deduction is vital in the field of renewable energy. Wind turbines, for instance, convert wind energy into mechanical power, but not all of that power is available for use due to losses in the system. Understanding these losses allows engineers to improve turbine designs and enhance their efficiency, ultimately leading to more sustainable energy production.Furthermore, as technology evolves, the importance of propelling power deduction becomes even more pronounced. With advancements in artificial intelligence and machine learning, we can simulate various scenarios and predict how changes in design or environmental conditions affect the propelling power of different systems. This predictive capability enables engineers to innovate and create more efficient solutions across multiple domains.In conclusion, the concept of propelling power deduction is fundamental to various fields, including engineering, sports, and renewable energy. By understanding the effective power available for propulsion, we can enhance the design and performance of vehicles, optimize athletic performance, and improve energy efficiency. As we continue to face challenges related to energy consumption and environmental sustainability, the significance of mastering this concept will only grow. Therefore, it is imperative for students and professionals alike to grasp the principles surrounding propelling power deduction to contribute meaningfully to future innovations and advancements in technology.

在物理和工程领域，“propelling power deduction”的概念在理解如何施加力量来移动物体方面起着至关重要的作用。这个术语指的是计算在考虑摩擦、空气阻力和其他相反力量造成的各种损失后，能够有效推动物体向前的功率的过程。准确确定这一功率的能力对于设计高效的车辆、机械甚至航天器至关重要。当工程师设计一辆新车时，他们必须考虑许多影响其性能的因素。主要目标之一是最大化propelling power deduction，以确保车辆能够达到所需的速度和效率。例如，在汽车工程中，发动机的输出功率必须与空气产生的阻力和轮胎的滚动阻力进行分析。通过计算这些相反的力量，工程师可以确定发动机的功率中有多少实际上用于向前运动。此外，propelling power deduction的概念不仅限于车辆，还扩展到日常生活中的各种应用。例如，在体育运动中，运动员通常会分析他们的表现指标，以了解他们有效利用多少能量来推动自己向前，无论是在跑步、游泳还是骑自行车。教练和训练师利用这些信息来优化训练方案，确保运动员能够最大化他们的潜力。此外，propelling power deduction的概念在可再生能源领域也至关重要。例如，风力涡轮机将风能转化为机械功，但并非所有的功率都可以使用，因为系统中存在损失。理解这些损失使工程师能够改善涡轮机设计，提高其效率，最终导致更可持续的能源生产。此外，随着技术的发展，propelling power deduction的重要性变得更加明显。随着人工智能和机器学习的进步，我们可以模拟各种场景，并预测设计或环境条件的变化如何影响不同系统的推进功率。这种预测能力使工程师能够创新并在多个领域创造更高效的解决方案。总之，propelling power deduction的概念在工程、体育和可再生能源等多个领域都是基础性的。通过理解可用于推进的有效功率，我们可以增强车辆的设计和性能，优化运动表现，提高能源效率。随着我们继续面临与能源消耗和环境可持续性相关的挑战，掌握这一概念的重要性只会增加。因此，对于学生和专业人士而言，掌握与propelling power deduction相关的原则对于对未来创新和技术进步做出有意义的贡献至关重要。