acoustic susceptance

简明释义

1. 声纳; 2. 声纳声导纳的虚分量;

英英释义

例句

1.Engineers often calculate acoustic susceptance to optimize the performance of loudspeakers.

工程师常常计算声学易导性以优化扬声器的性能。

2.The acoustic susceptance of a material can indicate its ability to absorb sound energy.

材料的声学易导性可以指示其吸收声能的能力。

3.In the study of room acoustics, acoustic susceptance helps to analyze how sound interacts with surfaces.

在房间声学研究中，声学易导性有助于分析声音如何与表面相互作用。

4.In architectural acoustics, understanding acoustic susceptance is crucial for creating spaces with good sound quality.

在建筑声学中，理解声学易导性对创造良好声音质量的空间至关重要。

5.The measurement of acoustic susceptance is essential for designing efficient soundproofing materials.

测量声学易导性对于设计高效的隔音材料至关重要。

作文

In the field of acoustics, understanding various parameters is crucial for designing effective sound systems and studying sound behavior. One such parameter is acoustic susceptance, which plays a significant role in determining how sound interacts with different materials and environments. Acoustic susceptance refers to the measure of how easily a system can respond to an acoustic pressure wave. It is essentially the reciprocal of acoustic impedance, which describes how much resistance a material offers to the flow of sound energy. By analyzing acoustic susceptance, engineers can optimize the performance of sound systems, ensuring that they deliver clear and powerful audio experiences.To further grasp the concept, it is essential to consider the components that make up acoustic susceptance. It consists of two primary elements: the real part, known as the conductance, and the imaginary part, known as the reactance. The conductance represents the ability of a medium to transmit sound energy, while the reactance accounts for the storage of sound energy within the medium. Together, these components provide a comprehensive picture of how sound behaves in various contexts.One practical application of acoustic susceptance is in the design of musical instruments. For example, when crafting a guitar, luthiers must consider how the body of the instrument will resonate with the strings. By analyzing the acoustic susceptance of different materials, they can select woods that enhance the instrument's tonal qualities. A guitar made from a wood with high acoustic susceptance will produce a richer, fuller sound compared to one made from a less responsive material.Moreover, acoustic susceptance is also vital in architectural acoustics. In concert halls and theaters, the design must facilitate optimal sound distribution. By studying the acoustic susceptance of various building materials, architects can create spaces that minimize sound absorption and reflection, resulting in a more enjoyable auditory experience for the audience. This careful consideration of acoustic susceptance allows for a harmonious balance between sound clarity and richness.In conclusion, acoustic susceptance is a fundamental concept in the study of acoustics, influencing everything from musical instrument design to architectural acoustics. By understanding and applying this principle, professionals in the field can create environments and products that enhance our auditory experiences. Whether it’s a beautifully crafted guitar or a perfectly designed concert hall, the impact of acoustic susceptance is profound and far-reaching, reminding us of the intricate relationship between sound and the materials that shape it.

在声学领域，理解各种参数对于设计有效的音响系统和研究声音行为至关重要。其中一个重要参数是声学易感性，它在确定声音如何与不同材料和环境相互作用方面发挥着重要作用。声学易感性是指一个系统对声压波响应的容易程度的度量。它本质上是声阻抗的倒数，声阻抗描述了材料对声音能量流动的阻力。通过分析声学易感性，工程师可以优化音响系统的性能，确保它们提供清晰而强大的音频体验。为了进一步理解这个概念，有必要考虑构成声学易感性的组成部分。它由两个主要元素组成：称为导电性的实部和称为反应性的虚部。导电性代表一种介质传输声能的能力，而反应性则考虑到介质内声能的储存。这两个组成部分共同提供了声音在各种背景下行为的全面图景。声学易感性的一个实际应用是在乐器设计中。例如，在制作吉他时，制琴师必须考虑乐器的共鸣体如何与弦振动。通过分析不同材料的声学易感性，他们可以选择增强乐器音色的木材。用高声学易感性的木材制作的吉他将产生比用反应较差的材料制作的吉他更丰富、更饱满的声音。此外，声学易感性在建筑声学中也至关重要。在音乐厅和剧院中，设计必须促进最佳的声音分布。通过研究各种建筑材料的声学易感性，建筑师可以创建最小化声音吸收和反射的空间，从而为观众带来更愉悦的听觉体验。这种对声学易感性的仔细考虑使得声音的清晰度和丰富性之间达到了和谐的平衡。总之，声学易感性是声学研究中的一个基本概念，影响着从乐器设计到建筑声学的方方面面。通过理解和应用这一原则，专业人士可以创造出增强我们听觉体验的环境和产品。无论是精美制作的吉他还是完美设计的音乐厅，声学易感性的影响都是深远而广泛的，提醒我们声音与塑造声音的材料之间的复杂关系。