corpuscular

简明释义

英[kɔːˈpʌskjʊlə(r)]美[kɔrˈpʌskjələr]

adj. 微粒子的，小体的；血球的

英英释义

单词用法

同义词

反义词

例句

1.Objective: To study the relationship between mean corpuscular volume (MCV), mean corpuscular hemoglobin (MCH) of umbilical blood and thalassemia.

目的：探讨新生儿脐血红细胞平均体积(MCV)和红细胞平均血红蛋白(MCH)与地中海贫血的关系。

2.In optics we have to decide in favour of the wave theory against the corpuscular theory of light.

在光学中我们赞成光的波动说，而反对光的微粒说。

3.Methods: the mean corpuscular volume (MCV) of urinary RBC was measured with blood cell auto counting machine. At the same time, the morphology of urinary RBC was observed carefully with microscope.

方法：用血细胞计数仪检测尿中红细胞平均体积(MCV)并结合显微镜红细胞形态观察。

4.Objective: to study the effect of Baixingdan on expression level of Serotonin 1a receptor (5-ht1ar) and corpuscular viability of embryo rat cerebral cortex neural cells cultured in vitro.

目的：研究调肝方药白香丹对体外培养的胚胎大鼠皮层神经元细胞活力及其5羟色胺1a受体(5 -HT1AR)蛋白表达水平的影响。

5.We have seen that the corpuscular theory explains many of the observed facts. Is the wave theory also able to do this?

我们已经知道微粒说解释了许多已观察到的现象，光的波动说也能做到这一点吗？

6.Objective The study was conducted to evaluate the diagnostic value of the mean corpuscular hemoglobin concentration(MCHC) in hemolytic anemia(HA).

目的观察平均红细胞血红蛋白浓度（MCHC）检测对溶血性贫血（HA）的诊断价值。

7.Bradley's discovery supported a corpuscular theory, or at least it did not support the idea of an ether drag.

布拉德利的发现支持微粒子理论，或至少它不支持以太拖拉的想法。

8.The formation of the storm's main phase is closely related to the velocity of the corpuscular stream, while the relation with the density of stream, is poor.

磁暴主相的形成同微粒流的速度关系密切，但同微粒流密度的关系不大。

9.Objective: To study the changes and the clinical significance of the Red blood cell volume distribution width (RDW) and the mean corpuscular volume (MCV) in patients with malignant.

目的：探讨恶性肿瘤患者红细胞体积分布宽度(RDW)和红细胞平均体积(MCV)的变化及其临床意义。

10.The scientist conducted experiments to study the corpuscular 粒子状的 nature of light.

科学家进行了实验，以研究光的粒子状的特性。

11.In physics, corpuscular 粒子状的 theory explains the behavior of photons.

在物理学中，粒子状的理论解释了光子的行为。

12.The corpuscular 粒子状的 theory of light contrasts with the wave theory.

光的粒子状的理论与波动理论形成对比。

13.Many researchers focus on the corpuscular 粒子状的 aspects of radiation in their studies.

许多研究人员在他们的研究中关注辐射的粒子状的方面。

14.The corpuscular 粒子状的 model of matter is essential for understanding quantum mechanics.

物质的粒子状的模型对于理解量子力学至关重要。

作文

In the realm of science, the term corpuscular (粒子状的) often refers to the concept that matter can be described in terms of discrete particles. This idea is fundamental to our understanding of both physics and chemistry. The corpuscular theory of light, for instance, suggests that light travels in small packets called photons. This notion was pivotal in the development of quantum mechanics, where the behavior of light and matter is analyzed at a subatomic level. Understanding corpuscular nature of light allows scientists to explain phenomena such as the photoelectric effect, where light can cause electrons to be emitted from a material. Moreover, the corpuscular (粒子状的) perspective extends beyond light; it also applies to other forms of energy and matter. For example, in chemistry, atoms are considered as corpuscular entities, which combine to form molecules through various types of chemical bonds. This atomic theory revolutionized our understanding of matter and laid the groundwork for modern chemistry. The ability to visualize substances as collections of tiny particles helps chemists predict how different substances will react with one another. In biology, the corpuscular concept can be seen in the study of cells and microorganisms. Each cell can be viewed as a corpuscular unit, performing specific functions that contribute to the life of an organism. Advances in microscopy have allowed scientists to explore the corpuscular structure of cells in great detail, leading to discoveries about cellular processes and interactions. This microscopic view has been crucial in fields such as genetics and medicine, where understanding the corpuscular organization of biological systems is essential for developing treatments for diseases. The implications of the corpuscular (粒子状的) nature of matter extend into technology as well. For instance, the development of nanotechnology relies on manipulating materials at the corpuscular level to create new products with unique properties. By engineering materials at the nanoscale, scientists can enhance their strength, conductivity, or reactivity, leading to innovations in electronics, medicine, and materials science. In conclusion, the term corpuscular (粒子状的) encapsulates a vital concept in understanding the physical world around us. From the behavior of light to the structure of matter and the intricacies of biological systems, the corpuscular perspective provides a framework for scientific inquiry and technological advancement. As we continue to explore the universe at both the macroscopic and microscopic levels, the importance of recognizing the corpuscular nature of reality cannot be overstated. It is a reminder that the world is made up of countless tiny particles, each playing a role in the grand tapestry of existence.

在科学领域，术语corpuscular（粒子状的）通常指的是物质可以用离散粒子的概念来描述。这一思想是我们理解物理学和化学的基础。例如，光的粒子理论表明，光以称为光子的微小包裹形式传播。这个概念在量子力学的发展中至关重要，在量子力学中，光与物质的行为在亚原子层面上进行分析。理解光的corpuscular特性使科学家能够解释诸如光电效应等现象，其中光可以导致材料中电子的释放。此外，corpuscular（粒子状的）视角不仅限于光；它也适用于其他形式的能量和物质。例如，在化学中，原子被视为corpuscular实体，通过各种类型的化学键结合形成分子。这一原子理论彻底改变了我们对物质的理解，并为现代化学奠定了基础。将物质视为微小粒子集合的能力帮助化学家预测不同物质之间的反应。在生物学中，corpuscular概念可以在细胞和微生物的研究中体现。每个细胞都可以被视为一个corpuscular单位，执行特定功能，从而促进生物体的生命。显微镜技术的进步使科学家能够详细探索细胞的corpuscular结构，导致对细胞过程和相互作用的发现。这种微观视角在遗传学和医学等领域至关重要，在这些领域中，理解生物系统的corpuscular组织对于开发疾病治疗方案至关重要。corpuscular（粒子状的）物质特性的影响也延伸到技术领域。例如，纳米技术的发展依赖于在corpuscular水平上操控材料，以创造具有独特属性的新产品。通过在纳米尺度上工程化材料，科学家可以增强其强度、导电性或反应性，从而在电子学、医学和材料科学等领域带来创新。总之，术语corpuscular（粒子状的）概括了理解我们周围物理世界的重要概念。从光的行为到物质的结构，以及生物系统的复杂性，corpuscular视角为科学探究和技术进步提供了框架。随着我们继续在宏观和微观层面探索宇宙，认识到现实的corpuscular特性的重要性不容小觑。这提醒我们，世界由无数微小粒子组成，每一个粒子在存在的宏伟织锦中扮演着角色。