asymmetrical array

简明释义

不对称组合;

英英释义

例句

1.During the presentation, the speaker used an asymmetrical array of data points to illustrate the trends effectively.

在演讲中，演讲者使用了一个不对称排列的数据点，有效地说明了趋势。

2.The artist created a stunning painting featuring an asymmetrical array of colors that drew the viewer's attention.

这位艺术家创作了一幅令人惊叹的画作，展示了一个引人注目的不对称排列的色彩。

3.The new software features an asymmetrical array of icons for better user navigation.

新软件具有一个不对称排列的图标，以便于用户导航。

4.The architect proposed an asymmetrical array of windows to enhance natural light in the building.

建筑师提议采用一个不对称排列的窗户，以增强建筑内的自然光线。

5.In our new garden design, we decided to incorporate an asymmetrical array of plants to create a more dynamic look.

在我们的新花园设计中，我们决定加入一个不对称排列的植物，以创造更具活力的外观。

作文

In the realm of design and architecture, the concept of an asymmetrical array plays a crucial role in creating visually stimulating and dynamic spaces. Unlike symmetrical designs that emphasize balance and uniformity, an asymmetrical array embraces irregularity and unpredictability, often resulting in a more engaging experience for the observer. This essay explores the significance of asymmetrical arrays in various fields, including art, architecture, and nature, highlighting how they challenge conventional aesthetics and promote creativity.Art has long been a domain where asymmetrical arrays thrive. Artists such as Pablo Picasso and Jackson Pollock have utilized this principle to break free from traditional forms and create pieces that evoke strong emotional responses. For instance, in abstract expressionism, the chaotic arrangement of colors and shapes can be seen as an asymmetrical array, drawing the viewer’s eye across the canvas in unexpected ways. This method not only captivates the audience but also invites them to interpret the artwork subjectively, fostering a personal connection.In architecture, the use of asymmetrical arrays has gained popularity as designers seek to push boundaries and redefine urban landscapes. Buildings that feature unconventional shapes and layouts often employ asymmetrical arrays to create striking silhouettes against the skyline. A notable example is the Guggenheim Museum in Bilbao, Spain, designed by Frank Gehry. Its flowing, non-linear forms exemplify how asymmetrical arrays can produce a sense of movement and fluidity, transforming the way we perceive space. Such structures challenge the notion of symmetry, encouraging architects to explore innovative solutions that reflect the complexities of modern life.Nature itself is a master of asymmetrical arrays. From the branching patterns of trees to the arrangement of petals in flowers, asymmetry is a recurring theme that enhances biodiversity and adaptability. The Fibonacci sequence, often found in natural formations, illustrates how asymmetrical arrays can lead to efficiency and survival. For instance, the spiral arrangement of seeds in a sunflower allows for optimal exposure to sunlight, demonstrating that asymmetry can serve practical purposes beyond aesthetic appeal.The psychological impact of asymmetrical arrays cannot be overlooked. Research in cognitive psychology suggests that humans are naturally drawn to asymmetry, as it stimulates curiosity and intrigue. This attraction can be harnessed in marketing and branding, where companies utilize asymmetrical arrays in their logos and advertisements to stand out in a crowded marketplace. By breaking away from traditional symmetrical designs, brands can convey a sense of innovation and uniqueness that resonates with consumers.In conclusion, the exploration of asymmetrical arrays in art, architecture, and nature reveals their profound influence on our perception of beauty and creativity. By embracing irregularity and unpredictability, we open ourselves to a world of possibilities that challenge conventional norms. As we continue to navigate an increasingly complex society, the appreciation for asymmetrical arrays will undoubtedly inspire future generations to think outside the box and embrace the beauty of imperfection.

在设计和建筑的领域中，不对称阵列的概念在创造视觉上刺激和动态空间方面发挥着至关重要的作用。与强调平衡和统一性的对称设计不同，不对称阵列则拥抱不规则性和不可预测性，往往导致观察者更具吸引力的体验。本文探讨了不对称阵列在艺术、建筑和自然等各个领域的重要性，突出它们如何挑战传统美学并促进创造力。艺术长期以来一直是不对称阵列蓬勃发展的领域。毕加索和杰克逊·波洛克等艺术家利用这一原则打破传统形式，创造出能够引发强烈情感反应的作品。例如，在抽象表现主义中，颜色和形状的混乱排列可以被视为一种不对称阵列，以意想不到的方式吸引观众的目光穿越画布。这种方法不仅吸引观众，而且邀请他们主观地解读艺术作品，促进个人联系。在建筑中，不对称阵列的使用越来越受到欢迎，因为设计师寻求突破界限，重新定义城市景观。那些具有非常规形状和布局的建筑通常采用不对称阵列来创造与天际线相对比的惊艳轮廓。一个显著的例子是西班牙毕尔巴鄂的古根海姆博物馆，由弗兰克·盖里设计。其流动的非线性形状体现了不对称阵列如何产生运动感和流动感，改变我们对空间的感知。这些结构挑战了对称的概念，鼓励建筑师探索反映现代生活复杂性的创新解决方案。自然本身就是不对称阵列的高手。从树木的分枝模式到花瓣的排列，不对称是一个反复出现的主题，增强了生物多样性和适应性。斐波那契数列常常在自然形态中被发现，说明不对称阵列如何导致效率和生存。例如，向日葵种子的螺旋排列允许最佳阳光暴露，表明不对称不仅仅在美学上具有吸引力，还可以服务于实用目的。不对称阵列的心理影响也不容忽视。认知心理学研究表明，人类天生就被不对称所吸引，因为它刺激好奇心和兴趣。这种吸引力可以在市场营销和品牌推广中加以利用，公司利用不对称阵列在其标志和广告中脱颖而出，以便在拥挤的市场中占据一席之地。通过打破传统对称设计，品牌可以传达创新和独特性的感觉，与消费者产生共鸣。总之，探索不对称阵列在艺术、建筑和自然中的应用揭示了它们对我们对美和创造力的感知的深远影响。通过拥抱不规则性和不可预测性，我们为可能性打开了一扇窗，挑战传统规范。随着我们继续在日益复杂的社会中导航，对不对称阵列的欣赏无疑会激励未来几代人跳出框框，拥抱不完美的美。