distance by engine revolutions

简明释义

按主机转数计算的航程

英英释义

例句

1.By monitoring the distance by engine revolutions, we can optimize fuel consumption during flight.

通过监测通过发动机转速的距离，我们可以优化飞行中的燃油消耗。

2.The data on distance by engine revolutions helps in understanding the aircraft's efficiency.

关于通过发动机转速的距离的数据有助于理解飞机的效率。

3.The pilot calculated the distance by engine revolutions to ensure a safe landing.

飞行员计算了通过发动机转速的距离以确保安全着陆。

4.During the test flight, we recorded the distance by engine revolutions to analyze performance.

在测试飞行中，我们记录了通过发动机转速的距离以分析性能。

5.The mechanic explained how to measure distance by engine revolutions for maintenance checks.

机械师解释了如何测量通过发动机转速的距离以进行维护检查。

作文

In the realm of engineering and mechanics, understanding how various parameters affect performance is crucial. One such parameter is the relationship between distance traveled and engine revolutions. The phrase distance by engine revolutions refers to the concept of measuring how far a vehicle can travel based on the number of times its engine rotates. This relationship is particularly important in fields such as automotive engineering, aviation, and marine technology. By analyzing this data, engineers can optimize vehicle performance, fuel efficiency, and overall design. To better grasp the significance of distance by engine revolutions, let us consider a practical example. Imagine a car engine that operates at a certain number of revolutions per minute (RPM). If we know the circumference of the tires, we can calculate how far the car moves with each complete revolution of the engine. For instance, if the engine makes 1000 revolutions and the tire circumference is 2 meters, the car would theoretically travel 2000 meters. This simple calculation illustrates the direct correlation between engine revolutions and distance traveled.Moreover, this concept is not limited to just cars. In aviation, pilots often rely on similar calculations to determine flight distance based on engine output and revolutions. The understanding of distance by engine revolutions allows for more accurate flight planning and fuel management, which are critical for safety and efficiency. The relationship between distance and engine revolutions also plays a significant role in marine engineering. Ships and boats utilize powerful engines that rotate propellers. By measuring the revolutions of the engine, engineers can predict how far the vessel will travel over time. This is essential for navigation and ensuring timely arrivals at destinations. In addition to practical applications, the study of distance by engine revolutions opens up avenues for innovation. Engineers are continually seeking ways to enhance engine efficiency and reduce emissions. By understanding how different engine designs affect the distance traveled per revolution, they can create more sustainable and environmentally friendly vehicles. This is particularly relevant in today’s context, where climate change and environmental concerns are at the forefront of engineering challenges.Furthermore, the data gathered from analyzing distance by engine revolutions can lead to advancements in technology. For example, electric vehicles (EVs) are becoming increasingly popular due to their potential for lower emissions. By studying the revolutions of electric motors and their corresponding distances, engineers can improve battery life and overall vehicle performance. This ongoing research is vital for the future of transportation and energy consumption.In conclusion, the phrase distance by engine revolutions encapsulates a fundamental concept in engineering that connects the mechanical workings of an engine to the distance it can propel a vehicle. Understanding this relationship allows engineers to optimize performance across various industries, from automotive to aviation and marine technology. As we move towards a more sustainable future, the insights gained from studying distance by engine revolutions will continue to pave the way for innovative solutions and advancements in vehicle design and efficiency.

在工程和机械领域，理解各种参数如何影响性能至关重要。其中一个参数是行驶距离与发动机转速之间的关系。短语distance by engine revolutions指的是根据发动机旋转的次数来测量车辆可以行驶多远的概念。这一关系在汽车工程、航空和海洋技术等领域尤为重要。通过分析这些数据，工程师可以优化车辆性能、燃油效率和整体设计。为了更好地理解distance by engine revolutions的重要性，让我们考虑一个实际例子。想象一下，一辆汽车的发动机以每分钟一定数量的转速（RPM）运转。如果我们知道轮胎的周长，就可以计算出每次发动机完整转动时汽车移动的距离。例如，如果发动机转动1000次，而轮胎周长为2米，那么理论上汽车将行驶2000米。这个简单的计算说明了发动机转速与行驶距离之间的直接关系。此外，这个概念不仅限于汽车。在航空领域，飞行员通常依赖类似的计算来根据发动机输出和转速确定飞行距离。理解distance by engine revolutions使得飞行计划和燃料管理更加准确，这对于安全和效率至关重要。行驶距离与发动机转速之间的关系在海洋工程中也发挥着重要作用。船舶和小艇利用强大的发动机来旋转螺旋桨。通过测量发动机的转速，工程师可以预测船只在一段时间内的行驶距离。这对于导航和确保按时到达目的地至关重要。除了实际应用外，研究distance by engine revolutions还为创新开辟了途径。工程师们不断寻求提高发动机效率和减少排放的方法。通过理解不同发动机设计如何影响每次转动的行驶距离，他们可以创造出更可持续、更环保的车辆。这在当今气候变化和环境问题日益突出的背景下，显得尤为重要。此外，从分析distance by engine revolutions中获得的数据可以推动技术进步。例如，电动车（EV）因其潜在的低排放而越来越受欢迎。通过研究电动机的转速及其对应的行驶距离，工程师可以改善电池寿命和整体车辆性能。这项持续的研究对未来的交通和能源消耗至关重要。总之，短语distance by engine revolutions概括了工程中的一个基本概念，将发动机的机械工作与其能够推动车辆的距离连接起来。理解这一关系使工程师能够在汽车、航空和海洋技术等各个行业优化性能。随着我们向更加可持续的未来迈进，研究distance by engine revolutions所获得的见解将继续为车辆设计和效率的创新解决方案铺平道路。