supersonics

简明释义

英[suːpəˈsɒnɪks;sjuː-]美[ˌsʊpərˈsɑnɪks]

n. 超音波学，超声波学

英英释义

单词用法

同义词

反义词

例句

1.The Seattle Supersonics' Kevin Durant returned to the No. 1 position.

西雅图超音速队的凯文·杜兰特回到榜首。

2.The Lakers have won 11 straight against the Thunder-Seattle SuperSonics franchise, and are 9-0 this season when scoring 100 or more points.

湖人已经是连续第11次消灭了雷霆（超音速）队，并且本赛季在得分过百的比赛中他们的战绩为9战全胜。

3.Kobe Bryant's 48 points in the Lakers' 123-121 overtime victory against the SuperSonics weren't the most remarkable part of his evening.

湖人在加时赛后以123：121战胜对手超音速，科比在比赛中拿下48分，这对科比来说不足微道。

4.The Lakers look to snag a new win-streak high tonight at Seattle against the SuperSonics. They then play Portland, Miami and the Trail Blazers again.

湖人期望在与超音速的比赛中获胜，创造新的连胜记录。接下来赛程是开拓者、迈阿密、开拓者。

5.The Seattle SuperSonics and the Los Angeles Clippers combined to shoot nearly 52 percent from the field and more than 40 percent from beyond 3-point range.

西雅图超音速队和洛杉矶快船队合共取得差不多52％的命中率，还有多于40％的三分命中率。

6.The Rockets did not fill the vacant roster spot Wednesday, but the Seattle SuperSonics released Rick Brunson, who played for parts of three seasons for Van Gundy in New York.

星期三火箭队没有填满球员名单的空档，但是西雅图超音速队裁减了里克·布伦森，他曾在三个赛季的部分时间里为执教纽约的范甘迪效过力。

7.The Rockets did not fill the vacant roster spot Wednesday, but the Seattle SuperSonics released Rick Brunson, who played for parts of three seasons for Van Gundy in New York.

星期三火箭队没有填满球员名单的空档，但是西雅图超音速队裁减了里克·布伦森，他曾在三个赛季的部分时间里为执教纽约的范甘迪效过力。

8.His other interests are nature, inter-dimensional travel, supersonics, meditation and trance music.

他的其他爱好是自然，互联网冲浪，超音速，冥想和迷幻音乐。

9.In fact, fans in Seattle probably wish the league had done the same to the old SuperSonics a couple of years ago.

事实上，西雅图的粉丝多希望几年前联盟也曾这么对待老的超音速队。

10.Many military jets are capable of achieving supersonics 超音速 speeds during combat missions.

许多军用喷气机在作战任务中能够达到supersonics 超音速速度。

11.The development of supersonics 超音速 travel has opened new possibilities for global transportation.

supersonics 超音速旅行的发展为全球运输开辟了新的可能性。

12.The sound barrier was broken by supersonics 超音速 flight, changing the future of aviation.

通过supersonics 超音速飞行，打破了音障，改变了航空的未来。

13.Scientists are studying the effects of supersonics 超音速 on various materials to improve aerospace technology.

科学家们正在研究supersonics 超音速对各种材料的影响，以提高航空航天技术。

14.The aircraft was designed to travel at supersonics 超音速, allowing it to reach its destination in record time.

这架飞机的设计目标是以supersonics 超音速飞行，从而在创纪录的时间内抵达目的地。

作文

The term supersonics refers to speeds that exceed the speed of sound, which is approximately 343 meters per second in air at sea level. This phenomenon has captivated scientists, engineers, and aviation enthusiasts for decades. The study of supersonics not only involves understanding the physics behind these incredible speeds but also delves into the technological advancements that have made such travel possible. Historically, the concept of supersonics was largely theoretical until the mid-20th century when significant progress was made in aerodynamics and materials science. The first manned flight to achieve supersonic speeds was accomplished by Chuck Yeager in 1947 aboard the Bell X-1 aircraft. This milestone marked a new era in aviation and opened the doors for military and commercial applications of supersonics. One of the most notable applications of supersonics is in military aviation. Fighter jets like the F-22 Raptor and the Concorde are designed to operate at supersonic speeds, allowing them to evade enemy radar and interceptors. The ability to travel faster than sound gives these aircraft a tactical advantage in combat situations. However, this capability comes with challenges, such as increased fuel consumption and the generation of sonic booms, which can be disruptive to communities near flight paths. In addition to military uses, supersonics has also been explored in commercial aviation. The Concorde, which operated from 1976 to 2003, was a prime example of a supersonic passenger aircraft. It could cross the Atlantic Ocean in under four hours, significantly reducing travel time. Despite its advantages, the Concorde faced numerous challenges, including high operational costs and environmental concerns related to noise pollution and emissions. The future of supersonics in commercial aviation is currently being reimagined with new technologies aimed at minimizing the impact of sonic booms and improving fuel efficiency. Companies like Boom Supersonic are developing next-generation supersonic jets that promise to make supersonic travel accessible to a broader audience while adhering to stricter environmental regulations. These advancements could potentially revolutionize air travel, making it faster and more efficient than ever before. Moreover, the implications of supersonics extend beyond aviation. In fields such as material science, researchers are investigating the effects of supersonic speeds on various materials and structures, which could lead to innovations in engineering and manufacturing. Understanding how materials behave under supersonic conditions can pave the way for stronger, lighter, and more durable products. In conclusion, supersonics represents a fascinating intersection of science and technology that continues to evolve. From its historical roots in military aviation to its potential in commercial travel and material science, the study of supersonics offers endless possibilities for innovation. As we look to the future, the advancements in supersonics will undoubtedly shape the way we travel and interact with the world around us.

“超音速”这个词指的是超过声音速度的速度，在海平面空气中的速度大约为每秒343米。这个现象几十年来一直吸引着科学家、工程师和航空爱好者。对“超音速”的研究不仅涉及理解这些令人难以置信的速度背后的物理学，还深入探讨了使这种旅行成为可能的技术进步。历史上，“超音速”的概念在20世纪中期之前主要是理论性的，直到那时，空气动力学和材料科学取得了重大进展。1947年，查克·叶杰在贝尔X-1飞机上完成了第一次实现“超音速”飞行的任务。这一里程碑标志着航空的新纪元，为军事和商业的“超音速”应用打开了大门。“超音速”的一个显著应用是在军事航空中。像F-22猛禽和协和式飞机这样的战斗机被设计成能够以“超音速”飞行，使它们能够躲避敌方雷达和拦截器。以超过声音的速度旅行使这些飞机在战斗情况下具有战术优势。然而，这种能力也带来了挑战，例如更高的燃料消耗和产生的音爆，这可能对飞行路径附近的社区造成干扰。除了军事用途外，“超音速”还在商业航空中得到了探索。协和式飞机于1976年至2003年间运营，是一架“超音速”客机的典范。它可以在不到四小时内横跨大西洋，大大缩短了旅行时间。尽管有其优势，协和式飞机面临着许多挑战，包括高昂的运营成本和与噪音污染及排放相关的环境问题。在商业航空的未来中，新的技术正在重新构想“超音速”，旨在最小化音爆的影响并提高燃油效率。像Boom Supersonic这样的公司正在开发下一代“超音速”喷气机，承诺使“超音速”旅行对更广泛的受众变得可及，同时遵循更严格的环境法规。这些进步可能会彻底改变航空旅行，使其比以往任何时候都更快、更高效。此外，“超音速”的影响超出了航空领域。在材料科学等领域，研究人员正在研究“超音速”速度对各种材料和结构的影响，这可能会导致工程和制造方面的创新。理解材料在“超音速”条件下的行为可以为更强、更轻、更耐用的产品铺平道路。总之，“超音速”代表了科学与技术的迷人交汇点，仍在不断发展。从其在军事航空中的历史根源到其在商业旅行和材料科学中的潜力，“超音速”的研究提供了无尽的创新可能性。当我们展望未来时，“超音速”的进步无疑将塑造我们旅行和与周围世界互动的方式。