bad geometry

简明释义

不利几何条件

英英释义

例句

1.During the math exam, I realized my answer was wrong due to bad geometry in my calculations.

在数学考试中，我意识到我的答案是错误的，因为我计算中存在糟糕的几何形状。

2.The car's performance suffered from bad geometry in its suspension system.

由于悬挂系统中的糟糕的几何形状，汽车的性能受到了影响。

3.The architect had to redo the plans because of the bad geometry in the original design.

建筑师不得不重做计划，因为原始设计中存在糟糕的几何形状。

4.The furniture designer had to fix the bad geometry of the chair to ensure comfort.

家具设计师必须修复椅子的糟糕的几何形状以确保舒适性。

5.In 3D modeling, bad geometry can lead to rendering issues.

在3D建模中，糟糕的几何形状可能导致渲染问题。

作文

In the realm of mathematics, geometry plays a crucial role in understanding shapes, sizes, and the properties of space. However, when we refer to bad geometry, we are often talking about scenarios where geometric principles are misapplied or misunderstood, leading to flawed conclusions or designs. This concept can be observed in various fields, from architecture to engineering, and even in everyday life. Bad geometry can manifest in several ways, such as incorrect measurements, inappropriate angles, or the failure to account for spatial relationships. For instance, consider an architect designing a building. If they employ bad geometry by miscalculating the angles of the walls, the entire structure could become unstable. This not only poses safety risks but also results in increased costs due to necessary corrections. Similarly, in engineering, if a bridge is constructed using flawed geometric calculations, it may not support the intended load, leading to catastrophic failures.Moreover, bad geometry is not limited to professional fields; it can also occur in everyday situations. For example, when arranging furniture in a room, poor spatial awareness and disregard for geometric principles can lead to cluttered spaces that are difficult to navigate. A room designed without considering the proportions and relationships of its elements can feel cramped or uninviting, ultimately affecting the quality of life for its inhabitants.The implications of bad geometry extend beyond practical applications; they also touch on our cognitive processes. When we encounter geometric shapes in art or nature, our perception can be influenced by how well these shapes adhere to geometric principles. Art that employs bad geometry might evoke confusion or discomfort, while well-executed geometric designs can create harmony and balance. This highlights the importance of geometry not just as a mathematical discipline but as a fundamental component of aesthetics and human experience.To mitigate the effects of bad geometry, it is essential to cultivate a strong understanding of geometric principles. Education plays a pivotal role in this regard. Students should be encouraged to explore geometry not only through theoretical exercises but also through practical applications. Engaging with real-world problems can help learners appreciate the significance of accurate geometric reasoning.Furthermore, technology can assist in overcoming bad geometry. Tools such as computer-aided design (CAD) software allow architects and engineers to visualize their projects in three dimensions, helping them identify potential geometric errors before construction begins. By leveraging technology, professionals can ensure that their designs adhere to sound geometric principles, reducing the likelihood of costly mistakes.In conclusion, bad geometry is a concept that underscores the importance of accurate geometric understanding in various domains. Whether in architecture, engineering, or daily life, the consequences of misapplied geometric principles can be severe. By fostering education and utilizing technological advancements, we can combat bad geometry and strive for precision in our designs and interactions with the world around us. Ultimately, a solid grasp of geometry enriches our lives, enhances our environments, and fosters creativity in both art and science.

在数学领域，几何学在理解形状、大小和空间属性方面发挥着至关重要的作用。然而，当我们提到坏几何时，我们通常是在谈论几何原理被错误应用或误解的情况，从而导致错误的结论或设计。这个概念可以在各个领域观察到，从建筑到工程，甚至在日常生活中都能看到。坏几何可以以多种方式表现出来，例如测量不准确、角度不合适或未能考虑空间关系。例如，考虑一个设计建筑的建筑师。如果他们通过错误计算墙壁的角度来使用坏几何，整个结构可能会变得不稳定。这不仅会带来安全风险，还会因需要进行必要的修正而增加成本。同样，在工程中，如果一座桥是基于有缺陷的几何计算建造的，它可能无法承受预期的负载，导致灾难性的失败。此外，坏几何并不仅限于专业领域；它也可能发生在日常情况下。例如，在一个房间里安排家具时，缺乏空间意识和对几何原理的忽视可能导致杂乱的空间，难以通行。一个在设计时没有考虑到其元素的比例和关系的房间可能会感觉拥挤或不宜居住，最终影响居住者的生活质量。坏几何的影响不仅限于实际应用；它们还涉及到我们的认知过程。当我们在艺术或自然中遇到几何形状时，我们的感知可能会受到这些形状与几何原理的契合程度的影响。运用坏几何的艺术可能会引发混乱或不适，而良好执行的几何设计则可以创造和谐与平衡。这突显了几何不仅作为一种数学学科的重要性，也是美学和人类体验的基本组成部分。为了减轻坏几何的影响，培养对几何原理的深刻理解是至关重要的。教育在这方面发挥着关键作用。学生应该被鼓励通过理论练习和实际应用来探索几何学。参与现实世界的问题可以帮助学习者欣赏准确几何推理的重要性。此外，技术可以帮助克服坏几何。计算机辅助设计（CAD）软件等工具使建筑师和工程师能够三维可视化他们的项目，帮助他们在施工开始前识别潜在的几何错误。通过利用技术，专业人员可以确保他们的设计遵循健全的几何原理，从而降低发生成本错误的可能性。总之，坏几何是一个强调在各个领域准确几何理解重要性的概念。无论是在建筑、工程还是日常生活中，错误应用几何原理的后果都可能是严重的。通过促进教育和利用技术进步，我们可以对抗坏几何，努力在我们的设计和与周围世界的互动中追求精确。最终，对几何的扎实掌握丰富了我们的生活，增强了我们的环境，并在艺术和科学中促进了创造力。