mdoulated wave

简明释义

已调波

英英释义

例句

1.The mdoulated wave produced by the synthesizer created a rich sound texture.

合成器产生的调制波创造了丰富的声音质感。

2.The audio engineer adjusted the parameters to create a more defined mdoulated wave.

音频工程师调整参数以创建更清晰的调制波。

3.The scientist demonstrated how a mdoulated wave can carry information through space.

科学家演示了如何通过空间传递信息的调制波。

4.Using a mdoulated wave, the radio signal was able to reach farther than before.

使用调制波后，无线电信号的传播距离比以前更远。

5.In telecommunications, a mdoulated wave is essential for transmitting data over long distances.

在电信中，调制波对于远距离传输数据至关重要。

作文

In the realm of physics, particularly in wave mechanics, the concept of a mdoulated wave is crucial for understanding various phenomena. A mdoulated wave refers to a wave that undergoes modulation, which can be seen in many applications such as telecommunications, acoustics, and even in the study of light. Modulation involves varying one or more properties of the wave, such as its amplitude, frequency, or phase, in order to encode information or achieve a desired effect.For instance, in radio broadcasting, a carrier wave is modulated to transmit audio signals. This modulation allows the sound to be carried over long distances without significant loss of quality. The mdoulated wave in this context is essential for the transmission of information, as it enables the conversion of sound waves into electromagnetic waves that can travel through the air.Moreover, the study of mdoulated waves extends beyond just communication technologies. In acoustics, musicians often utilize modulation techniques to create varied sounds and effects. For example, a singer may change their vocal pitch or volume, resulting in a mdoulated wave that captivates the audience. The ability to manipulate waves in this way is what makes music dynamic and expressive.In the field of optics, mdoulated waves play a significant role in phenomena such as diffraction and interference. When light waves overlap, they can interfere with one another, leading to patterns that can be analyzed to understand various properties of light. This interference pattern is a direct result of the modulation of the light waves, showcasing how mdoulated waves are fundamental to our understanding of light behavior.Additionally, the concept of mdoulated waves is not limited to classical physics. In quantum mechanics, particles exhibit wave-like properties, and the modulation of these waves can lead to different probabilities of finding a particle in a certain state. This duality of waves and particles is a cornerstone of modern physics and highlights the importance of understanding mdoulated waves at a fundamental level.In conclusion, the study of mdoulated waves is integral to various fields of science and technology. Whether in telecommunications, music, optics, or quantum mechanics, modulation allows us to manipulate waves to convey information, create art, and explore the fundamental nature of reality. As we continue to advance our understanding of mdoulated waves, we unlock new possibilities for innovation and discovery, making it a vital area of study for future generations of scientists and engineers.

在物理学的领域，特别是在波动力学中，调制波的概念对于理解各种现象至关重要。调制波指的是经历调制的波，这种现象可以在许多应用中看到，例如电信、声学，甚至是光的研究。调制涉及到改变波的一种或多种属性，例如其幅度、频率或相位，以便编码信息或实现所需效果。例如，在广播中，载波波被调制以传输音频信号。这种调制使得声音能够在长距离传播而不会显著损失质量。在这种情况下，调制波对信息的传输至关重要，因为它使声音波能够转化为能够在空气中传播的电磁波。此外，调制波的研究不仅限于通信技术。在声学中，音乐家通常利用调制技术来创造多样的声音和效果。例如，歌手可能会改变他们的音调或音量，从而产生一种吸引观众的调制波。以这种方式操控波的能力使得音乐变得动态和富有表现力。在光学领域，调制波在衍射和干涉等现象中发挥着重要作用。当光波重叠时，它们可能会相互干扰，导致可以分析的图案，以理解光的各种属性。这种干涉图案是光波调制的直接结果，展示了调制波对我们理解光行为的重要性。此外，调制波的概念并不仅限于经典物理学。在量子力学中，粒子表现出波动特性，而这些波的调制可以导致找到粒子处于某种状态的不同概率。这种波与粒子的二元性是现代物理学的基石，强调了在基础层面理解调制波的重要性。总之，调制波的研究对于科学和技术的各个领域都是不可或缺的。无论是在电信、音乐、光学还是量子力学中，调制使我们能够操控波来传达信息、创造艺术以及探索现实的基本性质。随着我们继续推进对调制波的理解，我们为创新和发现解锁了新的可能性，使其成为未来几代科学家和工程师重要的研究领域。