superposable
简明释义
英[ˌsuːpəˈpəʊzəbl]美[ˌsuːpərˈpoʊzəbl]
可叠加的
英英释义
Capable of being placed on top of each other without any change in their relative position or orientation. | 能够彼此重叠而不改变相对位置或方向的能力。 |
单词用法
可叠加的函数 | |
可叠加的状态 | |
可叠加的向量 | |
在几何中可叠加 | |
在物理中可叠加 | |
可叠加的系统 |
同义词
| 重叠的 | 在这个图中,这两个形状是重叠的。 | ||
| 可叠加的 | The two functions are superimposable when plotted on the same graph. | 当这两个函数绘制在同一图表上时,它们是可叠加的。 | |
| 重合的 | The paths of the two particles are coinciding at this point. | 这两颗粒子的路径在这一点上是重合的。 |
反义词
例句
1.The results of superposable test suggest that 5A5, 5C12 and 6F5 were against different antigen epitope.
叠加实验表明,5A5、5C12和6F5三株单抗抗原识别位点均不相同。
2.The results of superposable test suggest that 5A5, 5C12 and 6F5 were against different antigen epitope.
叠加实验表明,5A5、5C12和6F5三株单抗抗原识别位点均不相同。
3.In geometry, two shapes are considered superposable if they can be aligned perfectly on top of each other.
在几何学中,如果两个形状可以完美地重叠在一起,则这两个形状被认为是可叠加的。
4.In physics, wave functions are superposable, allowing for the creation of complex interference patterns.
在物理学中,波函数是可叠加的,允许形成复杂的干涉图样。
5.When overlaying the maps, we noticed that certain regions were superposable, revealing historical changes in land use.
当我们叠加这些地图时,我们注意到某些区域是可叠加的,揭示了土地使用的历史变化。
6.The artist used superposable layers in her painting technique to achieve depth and texture.
这位艺术家在她的绘画技巧中使用了可叠加的图层,以达到深度和质感。
7.The scientists found that the two DNA sequences were superposable, indicating a high degree of similarity.
科学家发现这两个DNA序列是可叠加的,这表明它们具有高度相似性。
作文
In the realm of mathematics and physics, the concept of superposable plays a crucial role in understanding various phenomena. The term superposable refers to the ability of two or more objects, functions, or states to be placed on top of each other without any alteration in their properties. This principle is not only fundamental in theoretical studies but also has practical applications in fields such as engineering, computer graphics, and quantum mechanics.To illustrate the importance of superposable concepts, let us consider the example of waves. In physics, waves can be described by their amplitude, frequency, and phase. When two waves are superposable, they can interfere with each other to create a new wave pattern. This phenomenon, known as interference, can lead to constructive or destructive outcomes, depending on how the waves align. For instance, if two sound waves are superposable and in phase, they will combine to produce a louder sound. Conversely, if they are out of phase, they may cancel each other out, resulting in silence.The idea of superposable extends beyond just physical waves; it can also be applied to mathematical functions. In mathematics, two functions are considered superposable if their graphs can be aligned perfectly on top of each other. This characteristic is essential in various branches of mathematics, including calculus and linear algebra, where the superposition principle allows for the solution of complex problems by breaking them down into simpler components.In computer graphics, the notion of superposable is vital when creating layered images or animations. Designers often use layers to build complex visuals, where different elements can be superposable without losing their individual characteristics. This allows for greater flexibility and creativity in design, enabling artists to manipulate various components independently while maintaining the overall composition.Moreover, in the field of quantum mechanics, the principle of superposable states is fundamental to the understanding of quantum systems. Quantum particles can exist in multiple states simultaneously until measured, a phenomenon known as superposition. This concept challenges our classical understanding of reality and highlights the unique nature of the quantum world. The superposable states of particles lead to fascinating implications for technology, such as the development of quantum computing, which leverages these principles to perform calculations at unprecedented speeds.In conclusion, the term superposable encompasses a wide range of applications across different disciplines. Whether it is in the study of waves, mathematical functions, computer graphics, or quantum mechanics, the ability to layer and combine elements without altering their properties is invaluable. Understanding the concept of superposable not only enhances our comprehension of complex systems but also opens up new avenues for innovation and discovery in science and technology. As we continue to explore the intricacies of the universe, the principle of superposable will undoubtedly remain a cornerstone of our understanding, guiding us towards new insights and advancements.
在数学和物理的领域中,superposable这一概念在理解各种现象中发挥着至关重要的作用。该术语superposable指的是两个或多个对象、函数或状态能够重叠而不改变其属性的能力。这个原则不仅在理论研究中是基础,而且在工程、计算机图形学和量子力学等领域也有实际应用。为了说明superposable概念的重要性,让我们考虑波的例子。在物理学中,波可以通过其振幅、频率和相位来描述。当两条波是superposable时,它们可以相互干涉,产生新的波形。这种现象被称为干涉,取决于波的对齐方式,可以导致建设性或破坏性的结果。例如,如果两条声波是superposable并且同相位,它们将结合产生更大的声音。相反,如果它们是反相位,它们可能会相互抵消,从而导致沉默。superposable的概念不仅限于物理波;它也可以应用于数学函数。在数学中,如果两个函数的图像可以完美地重叠在一起,则认为它们是superposable的。这一特征在微积分和线性代数等多个数学分支中是至关重要的,其中叠加原理允许通过将复杂问题分解为简单组件来解决问题。在计算机图形学中,superposable的概念在创建分层图像或动画时至关重要。设计师经常使用图层构建复杂的视觉效果,其中不同的元素可以superposable而不失去各自的特性。这为设计提供了更大的灵活性和创造力,使艺术家能够独立操作各种组件,同时保持整体构图。此外,在量子力学领域,superposable状态的原则是理解量子系统的基础。量子粒子可以同时存在于多种状态中,直到被测量,这一现象被称为叠加。这一概念挑战了我们对现实的经典理解,并突显了量子世界的独特性质。粒子的superposable状态对技术产生了迷人的影响,例如量子计算的发展,利用这些原则以空前的速度进行计算。总之,术语superposable涵盖了不同学科中广泛的应用。无论是在波的研究、数学函数、计算机图形学还是量子力学中,能够分层和组合元素而不改变其属性是无价的。理解superposable的概念不仅增强了我们对复杂系统的理解,还为科学和技术中的创新与发现开辟了新的途径。随着我们继续探索宇宙的复杂性,superposable的原则无疑将继续成为我们理解的基石,引导我们走向新的见解和进步。
