atomically
简明释义
adv. 利用原子能地
英英释义
以与原子或原子结构相关的方式。 | |
在最基本或根本的层面上。 |
单词用法
原子上稳定的 | |
原子上精确的 | |
原子级薄的 | |
原子级工程的 |
同义词
反义词
| 宏观地 | The experiment was conducted macroscopically to observe the overall effects. | 实验是以宏观的方式进行的,以观察整体效果。 | |
| 全局地 | When analyzing the data globally, we can see broader trends. | 在全局分析数据时,我们可以看到更广泛的趋势。 |
例句
1.This will save the old stack pointer and allocate stack memory atomically.
这会保存原来的堆栈指针,并自动分配堆栈内存。
2.It also allows you to unlock the mutex and wait on the condition variable atomically, without the possible intervention of another thread.
它还允许您原子地(atomically)解除互斥的锁定,并等待条件变量,而不会有干涉其他线程的可能。
3.The mica test pieces were prepared by cleavage so as to be atomically smooth.
云母试样是用劈裂的方法制备的,因此可以达到原子级的平滑程度。
4.To close this last hole, we need a means of atomically updating the score reference while guaranteeing freedom from interference.
要修复这个最后的漏洞,我们需要一种原子性地更新分数引用的方法,同时又要保证不受干扰。
5.The processor will atomically update the location to the new value if the value that is there matches the expected old value, otherwise it will do nothing.
如果内存位置的值与预期原值相匹配,那么处理器会自动将该位置值更新为新值。否则,处理器不做任何操作。
6.If your program does file manipulations, you might consider writing a small server that handles these operations atomically, and thus guarantees serialization.
如果程序要进行文件操作,那么可以考虑编写一个小服务器,让它自动地处理这些操作,并由此保证操作的串行化。
7.Is it possible to atomically load and store on X86 processors?
它是可能的自动加载和存储在x86处理器?
8.Then it atomically decreases the semaphore count.
然后它自动地减少信号的计数值。
9.Understanding the material atomically 从原子层面理解 can lead to better engineering solutions.
从<自身>原子层面理解<自身>材料可以带来更好的工程解决方案。
10.They discovered that the structure changed atomically 在原子层面上 under different temperatures.
他们发现,在不同温度下,结构在<自身>原子层面上<自身>发生了变化。
11.The simulation allowed them to visualize interactions atomically 从原子角度 between molecules.
该模拟使他们能够从<自身>原子角度<自身>可视化分子之间的相互作用。
12.The team analyzed the surface atomically 在原子层面上 to improve adhesion properties.
团队在<自身>原子层面上<自身>分析了表面,以改善附着性能。
13.The researchers studied the material atomically 原子层面地 to understand its properties.
研究人员从<自身>原子层面地<自身>研究了材料,以了解其特性。
作文
The universe is a vast and intricate tapestry of matter and energy, all composed of fundamental building blocks known as atoms. At the heart of this concept lies the term atomically, which refers to anything pertaining to or involving atoms. Understanding the significance of this term can help us appreciate the complexity of the universe and our place within it.When we say that something exists atomically, we are acknowledging its foundational role in the structure of matter. Atoms are the smallest units of an element, consisting of protons, neutrons, and electrons. They combine in various ways to form molecules, which in turn make up everything we see around us—from the air we breathe to the stars in the sky. This atomic composition is essential for understanding chemistry and physics, as it provides insight into how different substances interact and behave under various conditions.In the field of science, the study of matter atomically opens up numerous avenues for exploration. For instance, when scientists examine the properties of materials at the atomic level, they can uncover new insights into their behavior. This has led to advancements in technology, such as the development of semiconductors and nanomaterials, which have transformed industries ranging from electronics to medicine.Moreover, the concept of atomically structured materials extends beyond mere scientific inquiry; it also influences our everyday lives. Take, for example, the food we consume. The nutritional value of food is determined by its atomic composition. Proteins, carbohydrates, and fats are all made up of atoms arranged in specific ways, affecting how our bodies process these nutrients. Thus, understanding food atomically can lead to better dietary choices and improved health outcomes.In addition to practical applications, the idea of atomically exploring our environment raises philosophical questions about existence and reality. If everything is composed of atoms, what does that mean for our understanding of consciousness and identity? Are we merely collections of atoms interacting in complex ways, or is there something more profound that defines our humanity? These questions challenge us to think critically about the nature of life and our place in the cosmos.Furthermore, the implications of studying the universe atomically extend to the realm of sustainability. As we face global challenges such as climate change and resource depletion, understanding the atomic interactions that govern energy production and consumption becomes increasingly vital. By examining materials atomically, scientists can develop innovative solutions to reduce waste and enhance efficiency, paving the way for a more sustainable future.In conclusion, the term atomically encapsulates a world of knowledge that is fundamental to our understanding of the universe. From the microscopic interactions of atoms that form the basis of matter to the philosophical implications of our existence, the concept invites us to explore the intricacies of life and the universe. By embracing the idea of atomically analyzing our surroundings, we can foster a deeper appreciation for the interconnectedness of all things and inspire future generations to continue seeking knowledge in the ever-expanding realm of science.
宇宙是一个庞大而复杂的物质和能量的织锦,所有这些都由称为原子的基本构件组成。在这个概念的核心是术语atomically,它指的是与原子相关或涉及原子的任何事物。理解这个术语的重要性可以帮助我们欣赏宇宙的复杂性以及我们在其中的位置。当我们说某物以atomically的方式存在时,我们承认它在物质结构中的基础性作用。原子是元素的最小单位,由质子、中子和电子组成。它们以各种方式结合形成分子,而分子又构成我们周围看到的一切——从我们呼吸的空气到天空中的星星。这种原子组成对于理解化学和物理至关重要,因为它提供了不同物质如何相互作用和在各种条件下表现的见解。在科学领域,从atomically层面研究物质为探索打开了无数途径。例如,当科学家们检查材料在原子水平上的性质时,他们可以发现新的行为洞察。这导致了技术的进步,例如半导体和纳米材料的发展,这些材料改变了从电子产品到医学的各个行业。此外,atomically结构化材料的概念不仅仅是科学探究,它还影响着我们的日常生活。以我们消费的食物为例。食物的营养价值由其原子组成决定。蛋白质、碳水化合物和脂肪都是由以特定方式排列的原子组成的,影响着我们身体如何处理这些营养。因此,以atomically的方式理解食物可以导致更好的饮食选择和改善的健康结果。除了实际应用,atomically探索我们环境的理念还引发了关于存在和现实的哲学问题。如果一切都是由原子组成的,这对我们理解意识和身份意味着什么?我们只是以复杂方式相互作用的原子集合,还是有某种更深刻的东西定义了我们的人性?这些问题挑战我们批判性地思考生命的本质和我们在宇宙中的位置。此外,从atomically的角度研究宇宙的意义扩展到可持续发展的领域。当我们面临气候变化和资源枯竭等全球挑战时,理解支配能源生产和消费的原子相互作用变得越来越重要。通过从atomically的角度检查材料,科学家们可以开发创新解决方案以减少浪费并提高效率,为更可持续的未来铺平道路。总之,术语atomically概括了一个知识的世界,这对于我们理解宇宙至关重要。从构成物质基础的原子微观相互作用到我们存在的哲学意义,这一概念邀请我们探索生命和宇宙的复杂性。通过拥抱以atomically分析我们的周围环境的理念,我们可以培养对万物相互联系的更深刻的欣赏,并激励未来几代人继续在科学不断扩展的领域中寻求知识。
