capacity; measurement

简明释义

容积

英英释义

例句

1.The water tank has a maximum capacity; measurement of 500 liters.

这个水箱的最大容量；测量为500升。

2.To ensure safety, the capacity; measurement of the bridge must not be exceeded.

为了确保安全，桥的容量；测量不得超过。

3.The capacity; measurement for this elevator is 1000 kg.

这部电梯的容量；测量为1000千克。

4.When planning the event, we need to consider the capacity; measurement of the venue.

在计划活动时，我们需要考虑场地的容量；测量。

5.We need to check the capacity; measurement of the storage room before buying more supplies.

在购买更多物资之前，我们需要检查储藏室的容量；测量。

作文

Understanding the concepts of capacity and measurement is crucial in various fields, from engineering to everyday life. Capacity, in a general sense, refers to the maximum amount that something can hold or contain. This could relate to physical objects, like a container's volume, or abstract ideas, such as the capacity of a person to learn or adapt. On the other hand, measurement is the process of determining the size, amount, or degree of something. It provides a way to quantify capacity, allowing us to make comparisons and informed decisions.In the context of engineering, capacity is often associated with structures, such as bridges or buildings. Engineers must calculate the capacity of these structures to ensure they can support the expected loads. This is where measurement comes into play; precise measurements of materials, dimensions, and forces are essential for accurate calculations. For example, if a bridge is designed to hold a certain weight, engineers must measure the materials' strength and the bridge's dimensions to ensure it meets safety standards. Without proper measurement, the capacity of the bridge could be overestimated, leading to potential disasters.In our daily lives, we encounter capacity and measurement in simple tasks, such as cooking. Recipes require specific measurements of ingredients, which directly relate to the capacity of the cooking vessel. If a recipe calls for a liter of water and the pot has a capacity of only half a liter, it is impossible to follow the recipe correctly. Here, understanding both capacity and measurement ensures successful cooking outcomes.Moreover, in education, capacity can refer to a student's ability to grasp new concepts. Teachers often assess this through measurement tools like tests and assignments. These assessments help educators understand each student's learning capacity and tailor their teaching methods accordingly. If a student excels in mathematics but struggles with language arts, teachers can adjust their approach, focusing on enhancing the student's capacity in areas of difficulty while nurturing their strengths.The importance of capacity and measurement extends to environmental science as well. For instance, when assessing a lake's health, scientists measure various factors such as water quality, depth, and biodiversity. The capacity of the lake to support aquatic life is determined through these measurements. Understanding the lake's capacity helps in conservation efforts and in making informed decisions about resource management.In conclusion, the relationship between capacity and measurement is foundational in many aspects of life. Whether in engineering, cooking, education, or environmental science, these concepts help us understand limits and potentials. By accurately measuring, we can better comprehend capacity, leading to improved outcomes in our projects and endeavors. As we continue to navigate a world filled with challenges and opportunities, mastering the interplay of capacity and measurement will undoubtedly enhance our ability to succeed in various fields.

理解容量和测量的概念在各个领域都至关重要，从工程到日常生活。容量一般指某物能够容纳或包含的最大量。这可以与物理对象相关，例如容器的体积，或与抽象概念相关，例如一个人学习或适应的能力。另一方面，测量是确定某物的大小、数量或程度的过程。它提供了一种量化容量的方法，使我们能够进行比较并做出明智的决定。在工程的背景下，容量通常与结构有关，例如桥梁或建筑物。工程师必须计算这些结构的容量以确保它们能够支撑预期的负荷。这时，测量就显得尤为重要；材料、尺寸和力量的精确测量对于准确计算至关重要。例如，如果一座桥设计为承载一定的重量，工程师必须测量材料的强度和桥的尺寸，以确保其符合安全标准。如果没有适当的测量，桥的容量可能会被高估，从而导致潜在的灾难。在我们的日常生活中，我们在简单的任务中遇到容量和测量，例如烹饪。食谱需要特定的成分测量，这直接与烹饪容器的容量有关。如果食谱要求一升水，而锅的容量只有半升，那么就不可能正确遵循食谱。在这里，理解容量和测量确保成功的烹饪结果。此外，在教育中，容量可以指学生掌握新概念的能力。教师通常通过测量工具（如测试和作业）来评估这一点。这些评估帮助教育者了解每个学生的学习能力，并相应调整他们的教学方法。如果学生在数学方面表现出色，但在语言艺术方面挣扎，教师可以调整他们的教学方法，专注于提高学生在困难领域的能力，同时培养他们的优势。容量和测量的重要性还延伸到环境科学。例如，在评估湖泊健康时，科学家测量各种因素，如水质、深度和生物多样性。通过这些测量，确定湖泊支持水生生物的容量。理解湖泊的容量有助于保护工作和做出关于资源管理的明智决策。总之，容量和测量之间的关系在生活的许多方面都是基础。无论是在工程、烹饪、教育还是环境科学中，这些概念帮助我们理解限制和潜力。通过准确的测量，我们可以更好地理解容量，从而改善我们项目和努力的结果。随着我们继续在充满挑战和机遇的世界中航行，掌握容量和测量的相互作用无疑将增强我们在各个领域成功的能力。