take off mass

简明释义

起飞质量

英英释义

例句

1.To improve performance, the team decided to take off mass from the racing car.

为了提高性能，团队决定减轻赛车的重量。

2.When constructing a building, architects may take off mass from certain areas to reduce costs.

在建造一座建筑时，建筑师可能会在某些区域减轻结构重量以降低成本。

3.Engineers often take off mass in the design phase to enhance fuel efficiency.

工程师在设计阶段通常会减轻质量以提高燃油效率。

4.Before the flight, the pilot needs to take off mass from the aircraft to ensure it is within safe limits.

在飞行之前，飞行员需要减轻质量以确保飞机在安全范围内。

5.In order to increase speed, the cyclist had to take off mass by using lighter gear.

为了提高速度，骑自行车的人必须通过使用更轻的装备来减轻重量。

作文

In the realm of physics and engineering, the concept of mass plays a crucial role in understanding the behavior of objects. One interesting phrase that often comes up in discussions about aerodynamics and space travel is take off mass. This term refers to the total weight of a vehicle, such as an airplane or a rocket, at the moment it begins its ascent into the sky. The importance of take off mass cannot be overstated, as it directly influences the performance and efficiency of the craft during flight.When an aircraft is designed, engineers must carefully calculate the take off mass to ensure that the engines can generate enough thrust to lift the vehicle off the ground. If the take off mass is too high, the aircraft may struggle to gain altitude, leading to potential safety hazards. This is why pilots and engineers conduct extensive pre-flight checks to confirm that the weight of the aircraft, including passengers, cargo, and fuel, is within safe limits.In the context of space travel, take off mass becomes even more critical. Rockets are designed with a specific take off mass to achieve the necessary velocity to break free from Earth's gravitational pull. The calculations involved in determining this mass are complex, as they must account for various factors, including fuel consumption, payload capacity, and the rocket's structural integrity. A well-optimized take off mass ensures that the rocket can reach its intended orbit or destination without wasting energy.Moreover, the concept of take off mass is not limited to aviation and aerospace. It also applies to other fields such as automotive engineering, where the weight of a vehicle affects its acceleration, braking, and overall performance. For instance, a sports car with a lower take off mass will likely have better handling and speed compared to a heavier vehicle.Understanding the implications of take off mass helps us appreciate the intricacies of design and engineering. It highlights the balance that engineers must strike between safety, performance, and efficiency. By optimizing the take off mass, engineers can create vehicles that not only perform better but also consume less fuel, thus reducing their environmental impact.In conclusion, the phrase take off mass encapsulates a fundamental principle in both aviation and space exploration. It represents the weight of a vehicle at the moment it begins its journey into the skies. By mastering the concept of take off mass, engineers and pilots can ensure safe and efficient flights, paving the way for advancements in transportation technology. As we continue to explore the boundaries of flight and space travel, the significance of take off mass will remain a key consideration in our quest for innovation and sustainability.

在物理和工程领域，质量的概念在理解物体行为方面起着至关重要的作用。一个常常出现在空气动力学和太空旅行讨论中的有趣短语是起飞质量。这个术语指的是飞行器（如飞机或火箭）在开始升空时的总重量。起飞质量的重要性不容小觑，因为它直接影响飞行器在飞行过程中的性能和效率。当设计一架飞机时，工程师必须仔细计算起飞质量，以确保发动机能够产生足够的推力将飞行器从地面升起。如果起飞质量过高，飞机可能会难以获得高度，从而导致潜在的安全隐患。这就是为什么飞行员和工程师会进行广泛的飞行前检查，以确认飞机的重量（包括乘客、货物和燃料）在安全范围内。在太空旅行的背景下，起飞质量变得更加关键。火箭的设计必须具有特定的起飞质量，以实现突破地球引力所需的速度。确定这一质量的计算非常复杂，因为它必须考虑各种因素，包括燃料消耗、有效载荷能力和火箭的结构完整性。优化的起飞质量确保火箭能够到达其预定轨道或目的地，而不会浪费能量。此外，起飞质量的概念并不仅限于航空和航天。它也适用于汽车工程等其他领域，其中车辆的重量影响其加速、制动和整体性能。例如，一辆较轻的运动轿车与一辆较重的车辆相比，通常会有更好的操控性和速度。理解起飞质量的影响有助于我们欣赏设计和工程的复杂性。它突显了工程师必须在安全、性能和效率之间找到平衡。通过优化起飞质量，工程师可以创造出不仅性能更好，而且燃料消耗更少的车辆，从而减少对环境的影响。总之，短语起飞质量概括了航空和太空探索中的一个基本原则。它代表了飞行器在开始其飞行旅程时的重量。通过掌握起飞质量的概念，工程师和飞行员可以确保安全和高效的飞行，为交通技术的进步铺平道路。随着我们继续探索飞行和太空旅行的边界，起飞质量的重要性将始终是我们追求创新和可持续发展的关键考虑因素。