spectrums

简明释义

[ˈspɛktrəmz][ˈspɛktrəmz]

n. 光谱;范围(spectrum 的复数)

英英释义

A range of different things, often used to describe a variety of related concepts or phenomena.

一系列不同的事物,通常用来描述相关概念或现象的多样性。

In physics, it refers to the distribution of energy or wavelengths emitted by an object, such as light or sound.

在物理学中,它指的是物体发出的能量或波长的分布,例如光或声音。

单词用法

spectrum analysis

光谱分析;分光分析

frequency spectrum

频谱;频率谱

同义词

ranges

范围

The light spectrum includes all visible colors.

光谱包括所有可见颜色。

scales

尺度

The temperature range varies from hot to cold.

温度范围从热到冷。

arrays

数组

The data is represented in various scales for clarity.

数据以不同的尺度表示以便于清晰理解。

bands

The sound bands can be analyzed for frequency distribution.

声带可以分析频率分布。

反义词

monochrome

单色

The painting was done in monochrome, lacking any vibrant colors.

这幅画是单色的,缺乏任何鲜艳的颜色。

uniformity

一致性

The uniformity of the design made it less interesting.

设计的一致性使它显得不那么有趣。

例句

1.The research has shown that position and height of power spectrums have connection to the size of holes.

阐述了功率谱的谱峰位置和谱峰高度与木材空洞大小之间的关系。

2.Other light spectrums move at a straight line from the Sun, which is over the horizon, thus not arriving at our eyes.

其他光谱以直线前进,在地平线以上,因此没有进入我们的眼球。

3.The continuous spectrums occur to overlap with the increase of wind shear.

随着风切变的增大,连续谱发生重叠。

4.The spectrums of sterane and terpane were simulated and compared with some parameters and spectrums of actual mixed crude. A satisfactory result has been obtained.

对混合原油甾烷、萜烷谱图进行了数值模拟,与实际的混合原油的甾烷、萜烷谱图和参数进行了比较,得出了令人满意的结果。

5.Based on the wind tunnel test, aerodynamic modal force spectrums of twin-tower tall building are studied using surface integral method of rigid model.

在双塔楼风洞试验基础上,采用刚性模型表面风压积分法对双塔高层建筑气动力谱进行了研究。

6.Result: the different electrophoresis spectrums between them were found out.

结果:找出了两者不同的电泳图谱。

7.Then by use of computer simulated photon correlation spectrums, a detailed comparison is done among these inverting arithmetic.

然后利用计算机模拟产生的光子相关谱对这几种算法的性能进行了详细的对比研究。

8.Two-dimensioning power spectrums of engineering surfaces contain plenty of information that is important to surface characterization.

工程表面的二维功率谱包含了丰富的有关表面特征的重要信息。

9.The artist used a variety of colors to create different spectrums 光谱 in her painting.

这位艺术家使用多种颜色在她的画作中创造了不同的光谱

10.Scientists study the spectrums 光谱 of light emitted by stars to understand their composition.

科学家研究恒星发出的光谱以了解它们的成分。

11.Different spectrums 光谱 of electromagnetic radiation can be detected by various instruments.

不同的光谱可以通过各种仪器检测到电磁辐射。

12.In psychology, emotions can be represented as spectrums 光谱 rather than binary states.

在心理学中,情感可以表示为光谱而不是二元状态。

13.The sound engineer analyzed the audio spectrums 频谱 to improve the quality of the recording.

声音工程师分析了音频的频谱以提高录音质量。

作文

In our modern world, the concept of spectrums (光谱) is prevalent in various fields, ranging from science to art. Understanding spectrums (光谱) can provide us with a deeper insight into how we perceive and interact with our environment. For example, in physics, light can be broken down into different spectrums (光谱) based on its wavelength. This division allows scientists to study the properties of light and how it affects matter. The visible spectrum, which is the portion of the electromagnetic spectrum that can be seen by the human eye, comprises various colors, each corresponding to a specific wavelength. This understanding is not only crucial for scientific research but also plays a significant role in technologies like photography and television, where capturing and reproducing colors accurately is essential.Moreover, spectrums (光谱) are not limited to physical phenomena; they also exist in social contexts. In sociology, the term can describe the range of opinions or behaviors within a population. For instance, political ideologies can be represented as spectrums (光谱), with individuals holding varying beliefs that range from liberal to conservative. This sociopolitical spectrum (光谱) helps us understand the diversity of thought within a society and encourages dialogue among differing viewpoints. By recognizing these spectrums (光谱), we can foster a more inclusive environment that values all perspectives.Art is another domain where spectrums (光谱) play a crucial role. Artists often explore the emotional and aesthetic spectrums (光谱) of color in their work. Different colors evoke different feelings and reactions, and understanding this can enhance an artist's ability to communicate their message effectively. For instance, warm colors like red and orange can elicit feelings of warmth and excitement, while cool colors like blue and green may invoke calmness and serenity. By manipulating these spectrums (光谱), artists can create powerful visual narratives that resonate with their audience.Furthermore, the concept of spectrums (光谱) extends into the realm of mental health, where various conditions can be viewed as existing along a spectrum (光谱). For example, autism is often described as a spectrum disorder, indicating that individuals can exhibit a wide range of symptoms and abilities. This perspective encourages a more nuanced understanding of mental health, emphasizing that each person’s experience is unique and cannot be pigeonholed into a single category. Recognizing the spectrums (光谱) of mental health conditions can lead to better support systems and tailored interventions that meet individual needs.In conclusion, the term spectrums (光谱) encapsulates a broad range of ideas and applications across different disciplines. Whether we are discussing light in physics, opinions in sociology, colors in art, or conditions in mental health, spectrums (光谱) help us to categorize and understand the complexities of our world. By embracing the concept of spectrums (光谱), we can appreciate the diversity and richness of experiences, fostering a more informed and empathetic society. As we continue to explore these spectrums (光谱), we open ourselves to new possibilities and connections that enhance our understanding of both ourselves and the world around us.

在我们现代世界中,spectrums(光谱)的概念在各个领域都很普遍,从科学到艺术。理解spectrums(光谱)可以让我们更深入地洞察我们如何感知和与环境互动。例如,在物理学中,光可以根据其波长被分解成不同的spectrums(光谱)。这种划分使科学家能够研究光的性质以及它如何影响物质。可见光谱是电磁光谱的一部分,可以被人眼看到,由各种颜色组成,每种颜色对应特定的波长。这种理解不仅对科学研究至关重要,而且在摄影和电视等技术中也发挥着重要作用,因为准确捕捉和再现颜色是至关重要的。此外,spectrums(光谱)并不限于物理现象;它们在社会背景中也存在。在社会学中,该术语可以描述人口中意见或行为的范围。例如,政治意识形态可以表示为spectrums(光谱),个人持有从自由主义到保守主义的不同信念。这种社会政治spectrum(光谱)帮助我们理解社会内部思想的多样性,并鼓励不同观点之间的对话。通过认识到这些spectrums(光谱),我们可以促进一个更具包容性的环境,重视所有观点。艺术是另一个spectrums(光谱)发挥重要作用的领域。艺术家通常在他们的作品中探索颜色的情感和美学spectrums(光谱)。不同的颜色引发不同的感觉和反应,理解这一点可以增强艺术家有效传达信息的能力。例如,红色和橙色等暖色调可以引发温暖和兴奋的感觉,而蓝色和绿色等冷色调则可能唤起平静和宁静。通过操控这些spectrums(光谱),艺术家可以创作出强大的视觉叙事,与观众产生共鸣。此外,spectrums(光谱)的概念延伸到心理健康领域,其中各种状况可以被视为存在于一个spectrum(光谱)上。例如,自闭症通常被描述为一种谱系障碍,表明个体可能表现出广泛的症状和能力。这种观点鼓励对心理健康进行更细致的理解,强调每个人的经历都是独特的,不能被简单地归类为单一类别。认识到心理健康状况的spectrums(光谱)可以导致更好的支持系统和量身定制的干预措施,以满足个体需求。总之,术语spectrums(光谱)涵盖了跨不同学科的一系列想法和应用。无论我们是在讨论物理学中的光、社会学中的观点、艺术中的颜色,还是心理健康中的状况,spectrums(光谱)帮助我们对我们世界的复杂性进行分类和理解。通过接受spectrums(光谱)的概念,我们可以欣赏体验的多样性和丰富性,促进一个更有知识和同情心的社会。当我们继续探索这些spectrums(光谱)时,我们为新的可能性和联系敞开大门,增强我们对自己和周围世界的理解。