liquid medium

简明释义

液态介质

英英释义

例句

1.In microbiology, bacteria are often cultured in a liquid medium 液体培养基 to promote growth.

在微生物学中，细菌通常在液体培养基 液体培养基中培养以促进生长。

2.The artist used watercolors, which are a type of paint that requires a liquid medium 液体媒介 to activate the pigments.

艺术家使用水彩，这是一种需要液体媒介 液体媒介来激活颜料的绘画材料。

3.The fermentation process in brewing beer requires a specific liquid medium 液体介质 to support yeast activity.

酿造啤酒的发酵过程需要特定的液体介质 液体介质来支持酵母的活性。

4.For plant tissue culture, a nutrient-rich liquid medium 液体培养基 is essential for cell growth.

对于植物组织培养，营养丰富的液体培养基 液体培养基对细胞生长至关重要。

5.In chemistry experiments, reactions are often conducted in a liquid medium 液体介质 to facilitate mixing and interaction.

在化学实验中，反应通常在液体介质 液体介质中进行，以促进混合和相互作用。

作文

In the realm of scientific exploration and artistic expression, the concept of a liquid medium plays a pivotal role. A liquid medium refers to any fluid substance that can serve as a carrier for various materials or elements, facilitating processes ranging from chemical reactions to artistic creations. This term is commonly used in fields such as chemistry, biology, and art, each interpreting the concept in unique ways.In chemistry, a liquid medium is often utilized in experiments to dissolve solutes, allowing researchers to study interactions at a molecular level. For instance, water is frequently employed as a liquid medium because of its excellent solvent properties. It can dissolve a wide variety of substances, making it an ideal choice for conducting reactions. The ability of a liquid medium to facilitate the movement and interaction of molecules is crucial for understanding complex biochemical pathways and reactions.Similarly, in the field of biology, a liquid medium is essential for the growth and maintenance of microorganisms. Nutrient broths, which are rich in vitamins, minerals, and other necessary compounds, provide a suitable liquid medium for bacteria and other cells to thrive. Researchers often manipulate the composition of these liquid media to create optimal conditions for specific organisms, enabling them to study growth patterns, genetic expressions, and metabolic processes.On the artistic front, the term liquid medium takes on a more creative interpretation. In painting, for example, artists use various liquid mediums to alter the texture and flow of their paints. Watercolors, oils, and acrylics all rely on liquid mediums that allow for blending, layering, and the creation of dynamic visuals. The choice of liquid medium can significantly influence the final outcome of an artwork, affecting everything from color saturation to drying time.Moreover, the concept of a liquid medium extends beyond traditional boundaries. In modern technology, innovations such as 3D printing utilize liquid mediums in the form of resins or gels to create intricate designs and structures. These liquid mediums are manipulated precisely to achieve desired shapes and functionalities, showcasing the versatility and importance of this concept across various domains.The significance of a liquid medium is not limited to its physical properties; it also embodies the idea of transformation and fluidity. Just as liquids can change shape and adapt to their containers, the use of liquid mediums in science and art reflects the dynamic nature of discovery and creativity. Understanding how to manipulate these mediums allows scientists and artists alike to push the boundaries of their respective fields, leading to new discoveries and innovative works.In conclusion, the term liquid medium encapsulates a fundamental concept that bridges the gap between science and art. Whether facilitating chemical reactions, supporting biological growth, or enhancing artistic techniques, liquid mediums are integral to numerous processes. As we continue to explore and innovate, the significance of liquid mediums will undoubtedly expand, revealing new possibilities and insights in both scientific and creative endeavors.

在科学探索和艺术表现的领域中，液体媒介的概念起着关键作用。液体媒介指的是任何可以作为各种材料或元素载体的流体物质，促进从化学反应到艺术创作的过程。这个术语通常在化学、生物学和艺术等领域使用，每个领域以独特的方式解释这一概念。在化学中，液体媒介常用于实验中溶解溶质，使研究人员能够在分子层面上研究相互作用。例如，水经常被用作液体媒介，因为它具有优良的溶剂特性。它可以溶解多种物质，使其成为进行反应的理想选择。液体媒介促进分子的运动和相互作用的能力对于理解复杂的生化途径和反应至关重要。同样，在生物学领域，液体媒介对于微生物的生长和维持是必不可少的。营养肉汤富含维生素、矿物质和其他必要化合物，为细菌和其他细胞提供了适宜的液体媒介。研究人员常常操控这些液体媒介的成分，以创造特定生物的最佳条件，使他们能够研究生长模式、基因表达和代谢过程。在艺术方面，液体媒介的概念则更具创造性。例如，在绘画中，艺术家使用各种液体媒介来改变颜料的纹理和流动性。水彩、油画和丙烯都依赖于液体媒介，使得混合、分层和动态视觉效果的创作成为可能。液体媒介的选择可以显著影响艺术作品的最终结果，从颜色饱和度到干燥时间。此外，液体媒介的概念超越了传统界限。在现代技术中，3D打印等创新利用液体媒介，如树脂或凝胶，来创建复杂的设计和结构。这些液体媒介被精确操控，以实现所需的形状和功能，展示了这一概念在各个领域中的多样性和重要性。液体媒介的重要性不仅限于其物理特性；它还体现了转变和流动的理念。正如液体可以改变形状并适应其容器，科学和艺术中液体媒介的使用反映了发现和创造的动态特性。理解如何操控这些媒介使科学家和艺术家能够突破各自领域的界限，促成新的发现和创新作品。总之，液体媒介这一术语概括了一个基本概念，架起了科学与艺术之间的桥梁。无论是促进化学反应、支持生物生长，还是增强艺术技巧，液体媒介在许多过程中都是不可或缺的。随着我们继续探索和创新，液体媒介的重要性无疑会扩大，揭示出在科学和创造性努力中新的可能性和见解。