distance by engines revolution

简明释义

主机转数航程

英英释义

例句

1.The engineer explained how the distance by engines revolution affects fuel efficiency.

工程师解释了发动机转数所行驶的距离如何影响燃油效率。

2.During the test flight, the crew monitored the distance by engines revolution to ensure safety.

在测试飞行期间，机组人员监测了发动机转数所行驶的距离以确保安全。

3.The data on distance by engines revolution helped in adjusting the aircraft's speed.

关于发动机转数所行驶的距离的数据有助于调整飞机的速度。

4.The pilot calculated the total flight time based on the distance by engines revolution during takeoff.

飞行员根据起飞时的发动机转数所行驶的距离计算了总飞行时间。

5.In racing, teams often measure the distance by engines revolution to optimize their performance.

在赛车中，团队通常通过发动机转数所行驶的距离来优化他们的表现。

作文

In the world of engineering and transportation, the concept of measuring distance is crucial for various applications. One intriguing phrase that encapsulates this idea is distance by engines revolution. This term refers to the distance traveled by a vehicle or machine based on the number of revolutions made by its engine or wheels. Understanding this concept can help us appreciate the mechanics behind vehicles and their efficiency.To elaborate, let’s consider how a car operates. The engine generates power, which is then transmitted to the wheels. As the wheels turn, they cover a certain distance on the road. The distance covered can be calculated by knowing the circumference of the wheel and the number of revolutions it makes. Thus, the formula can be expressed as: distance = number of revolutions × circumference of the wheel. This relationship highlights the importance of the engine's revolutions in determining how far a vehicle can travel.Furthermore, the concept of distance by engines revolution is not limited to cars; it applies to various modes of transportation, including airplanes, trains, and even bicycles. For example, in aviation, the thrust produced by an aircraft's engines propels it forward, and the distance it covers is also influenced by the revolutions of the propellers or turbines. Similarly, trains rely on engine revolutions to move along the tracks, where the distance covered can be calculated based on the wheel rotations.In the context of sustainability and innovation, understanding distance by engines revolution can lead to improved designs for more efficient engines. Engineers are constantly seeking ways to minimize fuel consumption while maximizing distance traveled. This has led to the development of hybrid and electric engines, which utilize advanced technology to enhance performance. By analyzing the distance achieved per engine revolution, engineers can optimize engine designs to achieve greater efficiency and lower emissions.Moreover, this concept is vital in the realm of logistics and transportation planning. Companies need to calculate the distance their vehicles can travel based on engine revolutions to plan routes effectively and manage fuel costs. By optimizing routes and understanding the relationship between engine revolutions and distance, businesses can save time and resources, ultimately leading to increased profitability.In conclusion, the phrase distance by engines revolution encompasses a fundamental principle in the field of transportation and engineering. It illustrates the relationship between the mechanical workings of engines and the distance they can propel vehicles. As we advance towards more sustainable and efficient modes of transportation, grasping this concept will be essential for engineers, businesses, and consumers alike. By focusing on improving the distance achieved per engine revolution, we can contribute to a greener future and enhance our understanding of the mechanics that drive our world.

在工程和运输的世界中，测量距离的概念对于各种应用至关重要。一个令人着迷的短语概括了这个想法，即通过发动机转数来计算距离。这个术语指的是车辆或机器基于其发动机或车轮的转数所行驶的距离。理解这个概念可以帮助我们欣赏车辆背后的机械原理及其效率。为了详细说明，让我们考虑一下汽车的运作。发动机产生动力，然后将其传递到车轮。当车轮转动时，它们在道路上覆盖一定的距离。通过知道轮子的周长和它转动的次数，可以计算出所覆盖的距离。因此，公式可以表示为：距离 = 转数 × 轮子的周长。这个关系突显了发动机转数在确定车辆能行驶多远方面的重要性。此外，通过发动机转数来计算距离的概念并不限于汽车；它适用于各种交通工具，包括飞机、火车甚至自行车。例如，在航空领域，飞机发动机产生的推力推动其前进，而其覆盖的距离也受到螺旋桨或涡轮转数的影响。同样，火车依赖发动机转数在轨道上移动，其中覆盖的距离可以根据车轮的转动进行计算。在可持续发展和创新的背景下，理解通过发动机转数来计算距离可以促进更高效发动机的改进设计。工程师们不断寻求在最大化行驶距离的同时最小化燃料消耗。这导致混合动力和电动发动机的发展，利用先进技术提高性能。通过分析每次发动机转动所实现的距离，工程师们可以优化发动机设计，以实现更高的效率和更低的排放。此外，这个概念在物流和运输规划领域至关重要。公司需要根据发动机转数计算其车辆可以行驶的距离，以有效规划路线和管理燃料成本。通过优化路线并理解发动机转数与距离之间的关系，企业可以节省时间和资源，最终提高盈利能力。总之，短语通过发动机转数来计算距离涵盖了运输和工程领域的基本原理。它说明了发动机的机械运作与车辆所能推动的距离之间的关系。随着我们朝着更可持续和高效的交通方式迈进，掌握这一概念对工程师、企业和消费者来说都将是必不可少的。通过关注提高每次发动机转动所实现的距离，我们可以为更加绿色的未来做出贡献，并加深对推动我们世界的机械原理的理解。