gaseous

简明释义

英[ˈɡæsiəs]美[ˈɡæsiəsˌˈɡeɪsiəs]

adj. 气态的，气体的；无实质的

英英释义

单词用法

同义词

反义词

例句

1.To offset our CO2 emissions, some suggest capturing gaseous carbon dioxide before it can escape into the atmosphere.

为了转移二氧化碳排放，有些人建议在气态的二氧化碳排入大气之前就进行采集。

2.Most of these are massive gaseous bodies, but the latest searches are turning up ever-smaller worlds.

它们中的大多数都是巨大的气态星体，但最近的研究找到了一些较小的行星。

3.All substances, whether they are gaseous, liquid or solid, are made of atoms.

一切物质，不论它们是气体、液体还是固体，都是由原子构成的。

4.A large planet, like Jupiter or Neptune, that is composed largely of gaseous material.

气体巨行星是像木星或海王星一类包含大量的气体物质的大的行星。

5.The intriguing facts and illustrations are honeycombed with pockets of gaseous philosophizing.

有趣的论据和说明就像蜂巢结构一样充满了空虚的哲学推理。

6.It would also limit the risks of a single firm striking gaseous gold and, as a result, cornering the market in the medium to long term.

这同样还能减少公司单枪匹马去发掘“气态黄金”所承担的风险，从而使原来的中期市场转变为长期市场。

7.The planet's atmosphere is primarily composed of gaseous 气态的 elements like nitrogen and oxygen.

这个星球的大气主要由氮和氧等气态的元素组成。

8.In a gaseous 气态的 state, the substance expands to fill its container.

在气态的状态下，物质会扩展以填满其容器。

9.The gaseous 气态的 emissions from the factory are monitored for environmental safety.

工厂排放的气态的废气会被监测以确保环境安全。

10.When water boils, it transforms from a liquid to a gaseous 气态的 state.

当水沸腾时，它从液态转变为气态的状态。

11.The gaseous 气态的 form of carbon dioxide is crucial for photosynthesis in plants.

二氧化碳的气态的形式对植物的光合作用至关重要。

作文

The universe is a vast and complex place, filled with various states of matter. Among these states, we often encounter solids, liquids, and the less tangible but equally important gases. The state of matter that intrigues scientists and laypeople alike is the gaseous (气体的) state, which plays a crucial role in our everyday lives and the functioning of the universe. Understanding the properties and behaviors of gaseous (气体的) substances can provide insights into everything from weather patterns to the workings of our own bodies. Gases are unique in that they do not have a fixed shape or volume. Instead, they expand to fill whatever container they are in. This property is due to the high energy and movement of the molecules within a gaseous (气体的) substance. Unlike solids, where particles are tightly packed together, or liquids, where they are close but can still flow, gas molecules are far apart and move freely. This results in a state of matter that is less dense than solids and liquids, making gases essential for many processes in nature. One of the most fascinating aspects of gaseous (气体的) matter is its ability to change states under different conditions. For instance, when we heat a liquid, it can turn into a gas through a process known as evaporation. Conversely, when a gas is cooled, it can condense back into a liquid. This interchange between states is not only a fundamental concept in chemistry but also has practical applications in our daily lives, such as in cooking or even in the operation of engines. In the atmosphere, gaseous (气体的) compounds like oxygen and carbon dioxide are vital for life. Plants utilize carbon dioxide during photosynthesis, converting it into oxygen, which is essential for humans and animals to breathe. This cycle illustrates the interdependence of living organisms and the gaseous (气体的) components of our atmosphere, highlighting how gases are integral to sustaining life on Earth. Moreover, the study of gaseous (气体的) substances extends beyond biology and chemistry; it also encompasses physics. The behavior of gases can be explained by various gas laws, such as Boyle's Law and Charles's Law, which describe how pressure, volume, and temperature are related. These principles are crucial for understanding phenomena such as weather systems, where changes in atmospheric pressure and temperature lead to the formation of clouds, rain, and wind. In addition to natural processes, gaseous (气体的) substances are also prevalent in technology. From the air we breathe to the fuel that powers our vehicles, gases are involved in countless applications. For example, natural gas is a significant energy source for heating and cooking, while helium, a gaseous (气体的) element, is used in balloons and scientific research. The versatility of gases makes them invaluable in both industrial and domestic settings. In conclusion, the gaseous (气体的) state of matter is a fundamental aspect of our world, influencing everything from ecological systems to technological advancements. By studying the properties and behaviors of gaseous (气体的) substances, we gain a deeper understanding of the universe and the intricate balance that sustains life. As we continue to explore the mysteries of gases, we unlock new possibilities for innovation and discovery, proving that even the most elusive states of matter hold significant importance in our lives.

宇宙是一个广阔而复杂的地方，充满了各种物质状态。在这些状态中，我们常常遇到固体、液体和不那么具体但同样重要的气体。让科学家和普通人都感兴趣的物质状态是gaseous（气体的）状态，它在我们的日常生活和宇宙的运作中发挥着至关重要的作用。理解gaseous（气体的）物质的性质和行为可以为我们提供从天气模式到我们自身身体运作的见解。 气体的独特之处在于它们没有固定的形状或体积。相反，它们会扩展以填充任何容器。这一特性源于gaseous（气体的）物质内分子较高的能量和运动。与固体中粒子紧密堆积不同，或者液体中粒子靠近但仍可流动，气体分子则相距较远，自由移动。这导致气体的密度低于固体和液体，使气体在自然界的许多过程中至关重要。 gaseous（气体的）物质最迷人的方面之一是它在不同条件下变化状态的能力。例如，当我们加热液体时，它可以通过蒸发过程转变为气体。相反，当气体被冷却时，它可以重新凝结为液体。这种状态之间的互换不仅是化学中的基本概念，而且在我们的日常生活中也有实际应用，例如在烹饪甚至发动机的操作中。 在大气中，像氧气和二氧化碳这样的gaseous（气体的）化合物对生命至关重要。植物在光合作用过程中利用二氧化碳，将其转化为氧气，这对人类和动物呼吸至关重要。这一循环说明了生物体与我们大气中gaseous（气体的）成分之间的相互依存关系，突显了气体在维持地球生命中的重要性。 此外，gaseous（气体的）物质的研究超越了生物学和化学；它还涉及物理学。气体的行为可以通过各种气体定律来解释，例如波义耳定律和查尔斯定律，这些定律描述了压力、体积和温度之间的关系。这些原理对于理解天气系统等现象至关重要，在这些现象中，大气压力和温度的变化导致云、雨和风的形成。 除了自然过程，gaseous（气体的）物质在技术中也很常见。从我们呼吸的空气到驱动我们车辆的燃料，气体参与了无数应用。例如，天然气是供暖和烹饪的重要能源，而氦气这种gaseous（气体的）元素则用于气球和科学研究。气体的多功能性使其在工业和家庭环境中都极具价值。 总之，gaseous（气体的）物质状态是我们世界的一个基本方面，影响着从生态系统到技术进步的一切。通过研究gaseous（气体的）物质的性质和行为，我们获得了对宇宙及其维持生命的复杂平衡的更深理解。随着我们继续探索气体的奥秘，我们为创新和发现打开了新的可能性，证明了即使是最难捉摸的物质状态在我们的生活中也具有重要意义。