sonics

简明释义

英[ˈsɒnɪks]美[ˈsɑːnɪks]

n. 声能学

英英释义

单词用法

同义词

反义词

例句

1.These anemometers, which employ hot wires, sonics, drag spheres, etc, are not commonly used because of operational and other difficulties.

这些风速计是使用热阻丝，声振、阻力球等来进行的，由于运用及其他方面的困难，所以不能普通地使用。

2.If I were Yao, I would demand a trade to the Golden State Warriors or the Lakers or Clippers, or the Sonics.

如果我是姚，我会交易到金州勇士或湖人或快船。

3.The Sonics have lost eight straight on the road and 19 of the last 21 away from KeyArena.

超音速当时有过8连败，而且在最后的21场比赛中输掉19场。

4.Who should the Sonics keep and who should they trade?

到底超音速应该留下谁，把谁交易出去？

5.The Sonics said Lewis suffered a slippage of the joint in his shoulder and would not return.

超音速宣布刘易斯肩部的关节发生了错位不会再回到场上。

6.The best teams in the '90s were the the Rockets, Jazz, Super Sonics, Knicks, and Suns.

90年代最好的球队是火箭、爵士、超音速、尼克斯和太阳。

7.The Suns have two games at home and two on the road after Wednesday night's game against the Sonics (no Ray Allen).

周三打超音速(阿伦不上)后，太阳还有两个主场两个客场。

8.Sonics is well-positioned to take advantage of this opportunity.

超音速被很好地利用这个机会。

9.The star foreign player for Shanxi Zhongyu is former Sonics center Olumide Olajide, who led the CBA in rebounding last season.

山西中宇的外援明星是前超音速中锋奥拉迈德。奥德杰，他是上赛季CBA的篮板王。

10.The sonics of the concert hall were designed for optimal sound quality.

音乐厅的声学效果经过设计，以获得最佳音质。

11.The latest gaming headset uses advanced sonics to enhance the audio experience.

最新的游戏耳机使用先进的声学技术来增强音频体验。

12.The team utilized sonics to create a more immersive virtual reality experience.

团队利用声学技术创造更身临其境的虚拟现实体验。

13.He is studying the impact of sonics on human perception of music.

他正在研究声学技术对人类音乐感知的影响。

14.Researchers are exploring how sonics can be used in medical imaging.

研究人员正在探索如何在医学成像中使用声学技术。

作文

In recent years, the field of sonics (声学) has gained significant attention across various industries, from music to engineering. The study of sonics involves understanding sound waves, their properties, and how they interact with different materials and environments. This exploration is not only fascinating but also crucial for advancements in technology and art.One of the most prominent applications of sonics is in the music industry. Musicians and producers rely heavily on sound design, which involves manipulating sonics to create unique auditory experiences. For instance, synthesizers use electronic circuits to generate sounds that can be modified through various effects, such as reverb and delay. Understanding the principles of sonics allows artists to push the boundaries of creativity and produce innovative music that resonates with audiences.Moreover, sonics plays a vital role in architectural design. Architects and acoustic engineers collaborate to ensure that buildings are not only visually appealing but also acoustically optimized. Concert halls and theaters are designed with specific shapes and materials to enhance sonics, allowing for clear sound projection and minimal distortion. This attention to detail ensures that performances are enjoyed to their fullest potential.In addition to the arts, the field of sonics is crucial in scientific research. Scientists study sound waves to better understand phenomena in nature, such as earthquakes and animal communication. For example, researchers use sonics to analyze the sounds produced by marine animals, gaining insights into their behaviors and interactions within ecosystems. This knowledge is essential for conservation efforts and understanding biodiversity.Furthermore, sonics technology has made significant strides in healthcare. Ultrasound imaging, a common medical procedure, relies on high-frequency sound waves to create images of the inside of the body. This non-invasive technique has revolutionized diagnostics, allowing doctors to monitor pregnancies and detect abnormalities without the need for invasive procedures. The principles of sonics are thus integral to improving patient care and outcomes.The military also utilizes sonics for various applications, including sonar technology. Sonar systems use sound waves to detect objects underwater, proving invaluable for navigation and surveillance. By understanding sonics, military personnel can effectively utilize these technologies to enhance security and operational efficiency.As we continue to explore the depths of sonics, it becomes evident that this field is intertwined with numerous aspects of our lives. From enhancing artistic expression to advancing medical technology, the implications of sonics are vast and varied. As technology evolves, so too will our understanding of sound and its applications. Embracing the study of sonics opens up endless possibilities for innovation and discovery, making it an exciting area of research for future generations.In conclusion, sonics (声学) is a multifaceted field that touches upon many disciplines, including music, architecture, science, healthcare, and military technology. Its relevance in our daily lives cannot be overstated, as it shapes our experiences and enhances our understanding of the world around us. As we delve deeper into the realm of sonics, we uncover new opportunities for creativity, advancement, and connection.

近年来，声学（sonics）在音乐、工程等各个行业中获得了显著关注。声学的研究涉及理解声波、它们的特性以及它们如何与不同材料和环境相互作用。这种探索不仅令人着迷，而且对技术和艺术的进步至关重要。声学在音乐行业中的一个显著应用是，音乐家和制作人高度依赖声音设计，这涉及操控声学以创造独特的听觉体验。例如，合成器利用电子电路生成声音，这些声音可以通过各种效果（如混响和延迟）进行修改。理解声学的原理使艺术家能够突破创造力的界限，制作出与观众产生共鸣的创新音乐。此外，声学在建筑设计中也起着至关重要的作用。建筑师和声学工程师合作，确保建筑物不仅在视觉上吸引人，而且在声学上经过优化。音乐厅和剧院的设计具有特定的形状和材料，以增强声学，从而实现清晰的声音投射和最小的失真。这种对细节的关注确保了表演能够得到充分的欣赏。除了艺术，声学领域在科学研究中也至关重要。科学家研究声波，以更好地理解自然现象，如地震和动物交流。例如，研究人员使用声学分析海洋动物发出的声音，从而深入了解它们的行为和生态系统中的相互作用。这些知识对于保护工作和理解生物多样性至关重要。此外，声学技术在医疗保健方面取得了显著进展。超声成像是一种常见的医疗程序，依赖于高频声波创建体内图像。这种非侵入性技术彻底改变了诊断，使医生能够监测妊娠并检测异常，而无需侵入性程序。因此，声学的原理对改善患者护理和结果至关重要。军方也利用声学用于各种应用，包括声纳技术。声纳系统利用声波探测水下物体，对导航和监视极为重要。通过理解声学，军方人员能够有效利用这些技术来增强安全性和操作效率。随着我们继续探索声学的深度，显而易见的是，这一领域与我们生活的许多方面交织在一起。从增强艺术表现到推进医疗技术，声学的影响广泛而多样。随着技术的发展，我们对声音及其应用的理解也将不断深化。拥抱声学的研究为创新和发现开辟了无尽的可能性，使其成为未来几代人激动人心的研究领域。总之，声学（sonics）是一个多方面的领域，涉及许多学科，包括音乐、建筑、科学、医疗保健和军事技术。它在我们日常生活中的相关性不容小觑，因为它塑造了我们的体验并增强了我们对周围世界的理解。随着我们深入探索声学的领域，我们揭示了创造力、进步和联系的新机会。