atoms

简明释义

英[ˈætəmz]美[ˈætəmz]

n. [物]原子（atom 的复数）

英英释义

单词用法

同义词

反义词

例句

1.If what they're saying is correct, which I believe it is, things like the light source are going to strip atoms from the inside out.

如果他们说的是正确的，就像我所相信的，像光源这样的东西会把原子从内部剥离出来。

2.The real killer is that if we get too close, we're even going to have nuclear-nuclear repulsion between the nuclei of the two atoms.

真正的杀手是，如果我们靠得太近，我们甚至会有两个原子核之间的排斥力。

3.There are just two hydrogen atoms per cubic centimeter on average in space, which poses no threat to spaceships traveling at low speeds.

太空中平均每立方厘米只有两个氢原子，这对低速飞行的宇宙飞船不构成威胁。

4.When we talk about orbitals in multi-electron atoms, they're actually lower in energy than the corresponding H atom orbitals.

当我们讨论多电子原子的轨道时，它们的能量实际上比对应的氢原子轨道要低。

5.Ordered arrangements of large groups of atoms and molecules are highly improbable.

大的原子群和分子群的有序排列是极不可能的。

6.Most hydrogen and oxygen atoms in water are stable, but traces of both elements are also present as heavier isotopes.

在水中大多数氢原子和氧原子是稳定的，但这两个元素也有微量以较重的同位素形式存在。

7.A coordinate covalent bond is one where both bonding electrons are from one of the atoms involved in the bond.

配位共价键是其中两个键合电子均来自该键所涉及的原子之一的键。

8.The atoms bond together to form a molecule.

原子结合形成分子。

9.Everything around us is made up of tiny atoms 原子.

我们周围的一切都是由微小的原子原子组成的。

10.In chemistry class, we learned that atoms 原子 can bond to form molecules.

在化学课上，我们学习到原子原子可以结合形成分子。

11.The concept of atoms 原子 dates back to ancient Greece.

对于原子原子的概念可以追溯到古希腊。

12.Different elements are composed of different types of atoms 原子.

不同的元素由不同类型的原子原子组成。

13.Physicists study the behavior of atoms 原子 at extremely low temperatures.

物理学家研究在极低温度下原子原子的行为。

作文

The concept of atoms (原子) is fundamental to our understanding of the physical world. Atoms are the building blocks of matter, and everything we see around us is made up of them. From the air we breathe to the food we eat, atoms (原子) play a crucial role in the composition of all substances. Understanding atoms (原子) can help us appreciate the complexity and beauty of the universe. An atom (原子) consists of a nucleus, which contains protons and neutrons, surrounded by electrons that orbit around the nucleus. The number of protons in an atom (原子) determines the element it represents. For example, hydrogen has one proton, while carbon has six. This simple structure leads to a vast diversity of elements and compounds, each with unique properties and behaviors. The study of atoms (原子) is essential in various scientific fields, including chemistry, physics, and biology. Chemists explore how atoms (原子) combine to form molecules, which in turn create the materials we encounter daily. For instance, water is formed when two hydrogen atoms (原子) bond with one oxygen atom (原子). This bonding process is not only fascinating but also vital for life as we know it. In physics, atoms (原子) are studied to understand the fundamental forces that govern the universe. The behavior of atoms (原子) under different conditions has led to significant discoveries, such as the development of quantum mechanics and the theory of relativity. These theories have transformed our understanding of time, space, and energy, highlighting the intricate dance of atoms (原子) at the microscopic level. Biology also relies on the knowledge of atoms (原子). Living organisms are composed of complex molecules made from atoms (原子), such as proteins, lipids, and nucleic acids. These molecules are essential for the functioning of cells and the processes that sustain life. By studying how atoms (原子) interact within biological systems, scientists can develop new medicines and treatments for diseases. Moreover, the exploration of atoms (原子) has practical applications beyond academia. In technology, understanding the behavior of atoms (原子) has led to advancements in electronics, nanotechnology, and materials science. For instance, the development of semiconductors relies on manipulating atoms (原子) to create materials that control electrical current. This innovation has revolutionized the way we communicate and access information. In conclusion, atoms (原子) are more than just tiny particles; they are the essence of all matter and the foundation of countless scientific disciplines. By studying atoms (原子), we unlock the secrets of the universe and gain insights that can lead to groundbreaking discoveries and innovations. As we continue to explore the world of atoms (原子), we deepen our understanding of ourselves and the cosmos, reminding us of the interconnectedness of all things.

原子的概念对于我们理解物质世界至关重要。原子是物质的基本构件，周围的一切都是由它们构成的。从我们呼吸的空气到我们吃的食物，原子在所有物质的组成中发挥着至关重要的作用。理解原子可以帮助我们欣赏宇宙的复杂性和美丽。 一个原子由一个核组成，核内包含质子和中子，外面则是围绕核旋转的电子。原子内质子的数量决定了它所代表的元素。例如，氢有一个质子，而碳有六个。这个简单的结构导致了元素和化合物的巨大多样性，每种都有独特的性质和行为。 原子的研究在化学、物理和生物等多个科学领域中都是必不可少的。化学家探索原子如何结合形成分子，而分子又创造了我们每天遇到的材料。例如，水是由两个氢原子与一个氧原子结合而成的。这种结合过程不仅令人着迷，而且对我们所知的生命至关重要。 在物理学中，原子被研究以理解支配宇宙的基本力量。在不同条件下原子的行为导致了重大发现，例如量子力学和相对论的发展。这些理论改变了我们对时间、空间和能量的理解，突显了微观层面上原子之间错综复杂的舞蹈。 生物学也依赖于对原子的知识。生物体由复杂的分子组成，这些分子是由原子构成的，例如蛋白质、脂质和核酸。这些分子对于细胞的功能和维持生命的过程至关重要。通过研究原子在生物系统中的相互作用，科学家可以开发新的药物和治疗疾病的方法。 此外，对原子的探索在学术界之外也有实际应用。在技术领域，理解原子的行为促进了电子学、纳米技术和材料科学的进步。例如，半导体的发展依赖于操纵原子以创造控制电流的材料。这一创新彻底改变了我们交流和获取信息的方式。 总之，原子不仅仅是微小的粒子；它们是所有物质的本质，是无数科学学科的基础。通过研究原子，我们揭开宇宙的秘密，并获得可以导致突破性发现和创新的洞察力。当我们继续探索原子的世界时，我们加深了对自身和宇宙的理解，提醒我们万物的相互联系。