Moorsom's measure

简明释义

莫逊吨位丈量法

英英释义

例句

1.For safety regulations, understanding Moorsom's measure is essential for all crew members.

对于安全法规，了解Moorsom's measure对所有船员来说都是必不可少的。

2.The captain relied on Moorsom's measure to ensure the ship was properly loaded.

船长依靠Moorsom's measure来确保船只装载正确。

3.In maritime studies, Moorsom's measure is crucial for assessing vessel performance.

在海事研究中，Moorsom's measure对于评估船只性能至关重要。

4.The engineer explained how to calculate the ship's stability using Moorsom's measure.

工程师解释了如何使用Moorsom's measure来计算船舶的稳定性。

5.The naval architect presented a report that included calculations based on Moorsom's measure.

海军建筑师提交了一份报告，其中包含基于Moorsom's measure的计算。

作文

In the field of naval architecture, various methods and measurements are employed to ensure the safety and efficiency of ships. One such method is known as Moorsom's measure, which is a formula used to calculate the volume of a ship's hull. This measurement is crucial for determining the ship's carrying capacity and stability in water. Understanding Moorsom's measure is essential for naval engineers and architects, as it helps them design vessels that can withstand the pressures of the sea while maximizing their cargo space.The concept of Moorsom's measure originated from the need for a standardized method of assessing ship sizes. Before this measure was introduced, there were numerous ways to calculate a ship's volume, leading to inconsistencies and confusion in the shipping industry. Moorsom's approach simplified this process by providing a clear and concise formula that could be applied universally.To grasp the importance of Moorsom's measure, one must first understand how it relates to the overall design of a ship. The hull of a vessel is its main body, and its shape directly affects how the ship moves through water. A well-designed hull will minimize resistance, allowing the ship to travel faster and more efficiently. By using Moorsom's measure, engineers can accurately assess the hull's volume, ensuring that it meets the necessary specifications for safety and performance.Moreover, Moorsom's measure plays a vital role in the regulatory aspects of maritime operations. Shipping companies must adhere to specific guidelines regarding the size and capacity of their vessels. By utilizing this measurement, they can ensure compliance with international regulations, which helps maintain safety standards across the industry. This is particularly important in an era where environmental concerns are paramount, and the efficiency of ships is closely monitored.In addition to its practical applications, Moorsom's measure also has historical significance. It represents a shift towards more scientific approaches in shipbuilding, moving away from traditional methods that relied heavily on empirical knowledge. This transition has paved the way for advancements in technology and engineering, allowing for the creation of larger and more complex vessels.Furthermore, the implications of Moorsom's measure extend beyond just the physical dimensions of a ship. It also influences economic factors such as shipping costs and logistics. A ship that can carry more cargo efficiently will reduce operational costs for shipping companies, ultimately benefiting consumers through lower prices. Thus, understanding Moorsom's measure is not only crucial for those in the maritime industry but also for anyone interested in the global economy.In conclusion, Moorsom's measure is an essential concept in naval architecture that serves multiple purposes. It aids in the design and construction of ships, ensures compliance with safety regulations, and contributes to economic efficiency in the shipping industry. As we continue to innovate and improve our maritime technologies, the principles behind Moorsom's measure will remain integral to our understanding of ship design and operation. For future naval architects and engineers, mastering this measurement will be a critical step in their professional development, helping them contribute to a safer and more efficient maritime world.

在海洋建筑领域，为确保船舶的安全性和效率，采用了各种方法和测量。其中一种方法被称为Moorsom's measure，这是一种用于计算船体体积的公式。这一测量对于确定船舶的载货能力和在水中的稳定性至关重要。理解Moorsom's measure对海洋工程师和建筑师来说是必要的，因为它帮助他们设计能够承受海洋压力并最大化货物空间的船只。Moorsom's measure的概念源于对标准化船舶尺寸评估方法的需求。在这一测量被引入之前，计算船舶体积的方法有很多，导致航运行业出现不一致和混淆。Moorsom的方法通过提供一个可以普遍应用的清晰简明的公式，简化了这一过程。要理解Moorsom's measure的重要性，首先必须了解它与船舶整体设计的关系。船舶的船体是其主体，其形状直接影响船舶在水中的运动。设计良好的船体将最小化阻力，使船舶能更快、更高效地行驶。通过使用Moorsom's measure，工程师可以准确评估船体的体积，确保其符合安全和性能的必要规范。此外，Moorsom's measure在海事运营的监管方面也发挥着重要作用。航运公司必须遵守有关船舶尺寸和容量的具体指南。通过利用这一测量，他们可以确保遵循国际规定，从而帮助维护行业的安全标准。在环保问题日益突出的时代，船舶的效率受到密切关注，这一点尤为重要。除了其实际应用外，Moorsom's measure还有历史意义。它代表了船舶建造中向更科学方法转变的一种趋势，远离了过度依赖经验知识的传统方法。这一转变为技术和工程的进步铺平了道路，使得更大和更复杂的船只得以创建。此外，Moorsom's measure的影响超越了船舶的物理尺寸。它还影响着诸如运输成本和物流等经济因素。一艘能够高效承载更多货物的船舶将降低航运公司的运营成本，最终通过降低价格使消费者受益。因此，理解Moorsom's measure不仅对海事行业的人士至关重要，对任何对全球经济感兴趣的人也是如此。总之，Moorsom's measure是海洋建筑中一个至关重要的概念，具有多重用途。它有助于船舶的设计和建造，确保遵守安全法规，并促进航运业的经济效率。随着我们继续创新和改进海洋技术，Moorsom's measure背后的原则将继续在我们理解船舶设计和操作中发挥重要作用。对于未来的海洋建筑师和工程师来说，掌握这一测量将是他们职业发展的关键一步，帮助他们为一个更安全、更高效的海洋世界做出贡献。