宾汉姆顿大学的研究人员发现蜘蛛丝可以对空气粒子速度做出反应,从而实现灵敏的长距离声音检测。 Binghamton University researchers find spider silk responds to air particle velocities for sensitive, long-distance sound detection.
宾汉姆顿大学的研究人员发现,蜘蛛丝能够对空气粒子速度的变化做出反应,从而使蜘蛛能够探测声音,实现高灵敏度、远距离的噪音检测。 Researchers at Binghamton University have discovered that spider silk responds to changes in the velocities of air particles, enabling spiders to detect sound for highly sensitive, long-distance noise detection. 与检测声压波的人类耳膜和传统麦克风不同,蜘蛛丝以声场中粒子的速度移动。 Unlike human eardrums and traditional microphones, which detect sound pressure waves, spider silk moves at the velocity of particles in a sound field. 这种声速检测方法对于高灵敏度、长距离声音检测具有巨大潜力,并可能启发麦克风的新设计。 This sound velocity detection method holds great potential for high-sensitivity, long-distance sound detection and could inspire new designs for microphones.