resynthesizing
简明释义
英[ˌriːˈsɪnθəsaɪzɪŋ]美[ˌriːˈsɪnθəˌsaɪzɪŋ]
再合成
英英释义
The process of synthesizing again or anew, often involving the re-creation or modification of previously synthesized materials or data. | 再次或重新合成的过程,通常涉及对先前合成的材料或数据进行重新创建或修改。 |
单词用法
重合成数据 | |
重合成声音 | |
重合成信息 | |
重合成的过程 | |
重合成的技术 | |
重合成的方法 |
同义词
反义词
拆解 | The dismantling of the old system was necessary before implementing the new one. | 在实施新系统之前,拆解旧系统是必要的。 | |
碎片化 | Fragmenting the data can lead to loss of important information. | 数据碎片化可能导致重要信息的丢失。 |
例句
1.He"s not just passing light through a prism — he"s resynthesizing it.
他不仅仅是让光线通过棱镜-- 他还重新合成了它。
2.He"s not just passing light through a prism — he"s resynthesizing it.
他不仅仅是让光线通过棱镜-- 他还重新合成了它。
3.The team is resynthesizing the data to improve the accuracy of their predictions.
团队正在重新合成数据,以提高预测的准确性。
4.After analyzing the old material, the scientists began resynthesizing it to explore its properties.
在分析旧材料后,科学家们开始重新合成它以探索其特性。
5.In music production, artists often find themselves resynthesizing sounds to create unique tracks.
在音乐制作中,艺术家们常常发现自己在重新合成声音,以创造独特的曲目。
6.The software allows users to experiment with resynthesizing audio clips for creative projects.
该软件允许用户在创意项目中实验重新合成音频剪辑。
7.The researchers are focused on resynthesizing new compounds that could lead to better pharmaceuticals.
研究人员专注于重新合成新的化合物,这可能会导致更好的药物。
作文
In the field of science and technology, the term resynthesizing refers to the process of recreating or reconstructing a substance or compound that has been previously synthesized. This concept is particularly significant in areas such as chemistry, biology, and even music production. The ability to resynthesize allows researchers and creators to explore variations of existing materials or sounds, leading to innovative discoveries and artistic expressions.For instance, in the realm of chemistry, scientists often engage in resynthesizing compounds to analyze their properties and potential applications. By breaking down a compound into its basic elements and then resynthesizing it, they can better understand how different components interact with one another. This process not only enhances our knowledge of chemical reactions but also paves the way for the development of new drugs and materials that can have a profound impact on society.Similarly, in the field of biology, resynthesizing plays a crucial role in genetic engineering. Researchers can take genes from one organism and resynthesize them in another, creating genetically modified organisms (GMOs) that exhibit desirable traits. This practice has sparked debates about ethics and safety, but it undeniably showcases the power of resynthesizing in advancing scientific knowledge and agricultural productivity.On a more artistic note, the music industry has also embraced the concept of resynthesizing. Music producers frequently take samples of existing songs and resynthesize them to create new tracks. This can involve altering the pitch, tempo, or instrumentation of the original piece, allowing artists to pay homage to the past while simultaneously crafting something fresh and original. The art of resynthesizing music not only reflects the creativity of the producer but also highlights the interconnectedness of musical genres and styles.Moreover, the digital age has further expanded the possibilities of resynthesizing. With advanced software and technology, anyone can experiment with resynthesizing sounds and images, leading to a democratization of creativity. This accessibility encourages collaboration and innovation, as individuals from diverse backgrounds contribute to the ever-evolving landscape of art and science.In conclusion, the concept of resynthesizing is multifaceted, spanning various disciplines from chemistry to music. It embodies the idea of transformation and innovation, allowing us to revisit and reinterpret existing knowledge and creations. As we continue to explore the potential of resynthesizing, we unlock new pathways for discovery and expression, ultimately enriching our understanding of the world around us. The future holds endless possibilities for those who dare to resynthesize and create anew.
在科学和技术领域,术语resynthesizing指的是重新创造或重构一个已经合成的物质或化合物的过程。这个概念在化学、生物学甚至音乐制作等领域尤为重要。能够resynthesize使研究人员和创作者能够探索现有材料或声音的变体,从而导致创新的发现和艺术表达。例如,在化学领域,科学家们经常参与resynthesizing化合物,以分析其性质和潜在应用。通过将化合物分解为基本元素,然后再resynthesizing它,他们可以更好地理解不同成分之间的相互作用。这个过程不仅增强了我们对化学反应的认识,而且为新药物和材料的发展铺平了道路,这些新药物和材料可能对社会产生深远影响。同样,在生物学领域,resynthesizing在基因工程中也发挥着关键作用。研究人员可以从一种生物体中提取基因,并在另一种生物体中resynthesize它们,创造出具有理想特征的转基因生物(GMO)。这一做法引发了关于伦理和安全性的辩论,但无疑展示了resynthesizing在推动科学知识和农业生产力方面的力量。在更具艺术性的层面上,音乐产业也接受了resynthesizing的概念。音乐制作人经常会采样现有歌曲并resynthesize它们以创建新曲目。这可能涉及改变原始作品的音高、节奏或乐器编制,使艺术家能够向过去致敬,同时又创作出新鲜而独特的东西。resynthesizing音乐的艺术不仅反映了制作人的创造力,还突显了音乐流派和风格之间的相互联系。此外,数字时代进一步扩展了resynthesizing的可能性。借助先进的软件和技术,任何人都可以尝试resynthesizing声音和图像,从而实现创造力的民主化。这种可获得性鼓励了合作和创新,因为来自不同背景的个人共同为不断发展的艺术和科学领域做出贡献。总之,resynthesizing的概念是多方面的,跨越了从化学到音乐的各个学科。它体现了转型和创新的理念,使我们能够重新审视和重新诠释现有的知识和创造。随着我们继续探索resynthesizing的潜力,我们为发现和表达开启了新的途径,最终丰富了我们对周围世界的理解。未来对那些敢于resynthesize和重新创造的人而言,充满了无限可能。