masurium

简明释义

英[/məˈzjuəriəm/]美[/məˈzjuəriəm/]

鎷

锝

英英释义

单词用法

同义词

反义词

例句

1.As Masurium, it was the first element discovered that occurs in nature only from spontaneous fission, and as Technetium, it was the first element discovered in a laboratory.

作为Masurium，它是在自然界中发现的第一种只能通过自然裂变产生的元素；作为锝，它是在实验室中发现的第一种元素。

2.When inn boss knew when Masurium Li has been in labor close, heart of the sympathetic, tells them in nearby small In the mountain has some shepherds to put out to pasture cattle's and sheep's cave.

当客栈老板得知玛利已接近临产时，顿起同情之心，告诉他们在附近的小山里有一些牧羊人牧放牛羊的山洞。

3.Tacke's team might very well have found small amounts of Masurium in the ore sample.

塔克的团队很可能是在矿石样本中发现了少量的锝。

4.The ore sample the Masurium group was working with had plenty of Uranium in it enough to split into measurable amounts of Masurium.

研究钨的小组正在研究的矿石样品中含有大量的铀，足以分裂成含量可测量的钨。

5.They were never able to isolate enough Masurium to have a weigh-able sample to convince everyone of the discovery.

他们一直未能分离出足量的钨，形成可称量的样本从而说服人们这一发现。

6.When inn boss knew when Masurium Li has been in labor close, heart of the sympathetic, tells them in nearby small In the mountain has some shepherds to put out to pasture cattle's and sheep's cave.

当客栈老板得知玛利已接近临产时，顿起同情之心，告诉他们在附近的小山里有一些牧羊人牧放牛羊的山洞。

7.Researchers are studying the potential applications of masurium in modern technology.

研究人员正在研究马苏里姆在现代技术中的潜在应用。

8.The periodic table lists masurium as a newly discovered element.

元素周期表将马苏里姆列为新发现的元素。

9.In the laboratory, the properties of masurium were analyzed under various conditions.

在实验室中，马苏里姆的性质在不同条件下进行了分析。

10.During the conference, scientists presented their findings on masurium and its isotopes.

在会议上，科学家们展示了关于马苏里姆及其同位素的研究结果。

11.The chemist discovered a new compound containing masurium.

化学家发现了一种含有马苏里姆的新化合物。

作文

In the realm of chemistry and materials science, the term masurium refers to a hypothetical element that was once theorized to exist. Although it has never been isolated or confirmed in any experimental setting, the concept of masurium serves as an intriguing point of discussion among scientists and historians alike. The idea of masurium emerged during a time when researchers were actively exploring the periodic table and predicting the existence of new elements based on gaps in the table. This phenomenon highlights the scientific method's nature, where hypotheses are generated and tested, leading to the eventual discovery of many elements that were once mere speculations.The pursuit of knowledge often involves venturing into the unknown, and the story of masurium is no exception. Scientists like Dmitri Mendeleev, who developed the periodic table, laid the groundwork for understanding elemental properties and their relationships. As researchers filled in the gaps of the periodic table, they encountered various challenges and surprises. The potential existence of masurium reflects the excitement and uncertainty that accompanies scientific exploration. It encourages future generations of scientists to think creatively and remain open to new possibilities.Furthermore, the concept of masurium can be viewed through the lens of theoretical chemistry. In this field, chemists often use computational models to predict the behavior of elements and compounds that have not yet been synthesized. Theoretical predictions can lead to groundbreaking discoveries, much like the initial idea of masurium. These predictions serve as a roadmap for experimental chemists, guiding them in their quests to create new materials with unique properties.In modern science, the importance of collaboration and interdisciplinary approaches cannot be overstated. The quest for understanding elements like masurium requires input from various scientific disciplines, including physics, mathematics, and engineering. By working together, scientists can develop innovative techniques and tools to explore the atomic world further. This collaborative spirit is essential for pushing the boundaries of what we know about matter and its fundamental building blocks.In conclusion, while masurium may not exist in the physical world, its significance lies in the inspiration it provides to scientists and students alike. It embodies the spirit of inquiry and the relentless pursuit of knowledge that drives scientific advancement. The discussions surrounding masurium remind us that even in the absence of concrete evidence, the quest for understanding continues to spark curiosity and innovation. As we move forward into an era of rapid technological advancements and scientific breakthroughs, let us carry the lessons learned from concepts like masurium with us, embracing both the known and the unknown as we strive to unravel the mysteries of our universe.

在化学和材料科学的领域中，术语masurium指的是一个假设的元素，这个元素曾被理论认为存在。尽管它从未在任何实验环境中被分离或确认，但masurium的概念在科学家和历史学家之间引发了有趣的讨论。masurium的想法出现在一个研究人员积极探索元素周期表并根据周期表中的空白预测新元素存在的时期。这种现象突显了科学方法的本质，即生成假设并进行测试，从而最终发现许多曾经仅是猜测的元素。知识的追求往往涉及进入未知，而masurium的故事就是一个例外。像德米特里·门捷列夫这样的科学家制定了周期表，为理解元素的性质及其关系奠定了基础。当研究人员填补周期表的空白时，他们遇到了各种挑战和惊喜。masurium的潜在存在反映了科学探索伴随的兴奋和不确定性。它鼓励未来一代科学家创造性地思考，并对新可能性保持开放态度。此外，从理论化学的角度来看，masurium的概念也可以被视为一种重要的研究方向。在这个领域，化学家们常常使用计算模型来预测尚未合成的元素和化合物的行为。理论预测可以导致开创性的发现，就像最初的masurium概念一样。这些预测为实验化学家提供了一条路线图，指导他们在创造具有独特性质的新材料的过程中。在现代科学中，合作和跨学科方法的重要性不容小觑。理解像masurium这样的元素的追求需要来自物理学、数学和工程等多个科学学科的输入。通过合作，科学家们可以开发创新技术和工具，以进一步探索原子世界。这种合作精神对于推动我们对物质及其基本构建块的认识的边界至关重要。总之，虽然masurium可能在物理世界中不存在，但它的重要性在于它为科学家和学生提供的灵感。它体现了推动科学进步的探究精神和对知识的不懈追求。围绕masurium的讨论提醒我们，即使在没有确凿证据的情况下，对理解的追求仍然能够激发好奇心和创新。随着我们进入一个快速技术进步和科学突破的时代，让我们将从像masurium这样的概念中学到的教训带入未来，拥抱已知与未知，努力揭开我们宇宙的奥秘。