model atmosphere
简明释义
标准大气
英英释义
例句
1.In aerospace engineering, a model atmosphere helps predict how aircraft will perform at different altitudes.
在航空航天工程中,模型大气有助于预测飞机在不同高度的性能。
2.The scientists used a model atmosphere to simulate the effects of climate change on weather patterns.
科学家们使用了一个模型大气来模拟气候变化对天气模式的影响。
3.The model atmosphere used in this experiment mimics the conditions found on Mars.
本实验中使用的模型大气模拟了火星上的条件。
4.To better understand planetary atmospheres, scientists often rely on a model atmosphere for their simulations.
为了更好地理解行星大气,科学家们通常依赖于一个模型大气进行模拟。
5.The model atmosphere created in the lab allowed researchers to study the behavior of gases under controlled conditions.
实验室中创建的模型大气使研究人员能够在控制条件下研究气体的行为。
作文
In the field of environmental science, the term model atmosphere refers to a theoretical representation of the Earth's atmosphere that is used for various scientific purposes. These models are crucial for understanding atmospheric processes, predicting weather patterns, and studying climate change. A model atmosphere is constructed based on a set of physical laws and empirical data, allowing scientists to simulate different scenarios and assess their impact on the environment.One of the primary uses of a model atmosphere is in meteorology, where it helps meteorologists predict weather conditions. By inputting various parameters such as temperature, humidity, and wind speed into the model, they can generate forecasts that guide daily activities and inform the public about potential weather-related hazards. For example, during hurricane season, a model atmosphere can simulate the development and trajectory of storms, enabling timely evacuations and emergency preparations.Moreover, model atmospheres play a significant role in climate research. Scientists use these models to study long-term climate trends and assess the effects of human activities on global warming. By altering variables within the model atmosphere, researchers can explore how increased greenhouse gas emissions might affect temperature and precipitation patterns over time. This information is vital for policymakers who need to make informed decisions regarding climate action and sustainability.Additionally, model atmospheres are essential for understanding phenomena such as air pollution and its impact on human health. By simulating the dispersion of pollutants in a model atmosphere, scientists can identify areas at risk for high pollution levels and recommend measures to mitigate exposure. This is particularly important in urban areas, where industrial activities and vehicle emissions contribute significantly to air quality issues.In the realm of astronomy, model atmospheres are utilized to study celestial bodies, including planets and stars. For instance, astronomers create model atmospheres for exoplanets to understand their potential habitability. By analyzing the composition and temperature of a planet's atmosphere through these models, scientists can determine if the conditions are suitable for life as we know it.In conclusion, the concept of a model atmosphere is multifaceted and serves a variety of applications across different scientific disciplines. From weather forecasting to climate modeling and air quality assessment, these theoretical constructs provide invaluable insights into the dynamics of our atmosphere. As technology advances and our understanding of atmospheric science deepens, the accuracy and reliability of model atmospheres will continue to improve, enhancing our ability to address environmental challenges and protect our planet for future generations.
在环境科学领域,术语model atmosphere指的是地球大气的理论表示,用于各种科学目的。这些模型对于理解大气过程、预测天气模式和研究气候变化至关重要。model atmosphere是基于一系列物理法则和经验数据构建的,允许科学家模拟不同的情景并评估它们对环境的影响。model atmosphere的主要用途之一是在气象学中,它帮助气象学家预测天气条件。通过将温度、湿度和风速等各种参数输入模型,他们可以生成指导日常活动的天气预报,并告知公众潜在的天气相关危险。例如,在飓风季节,model atmosphere可以模拟风暴的发展和轨迹,从而实现及时的撤离和应急准备。此外,model atmospheres在气候研究中也发挥着重要作用。科学家使用这些模型研究长期气候趋势,并评估人类活动对全球变暖的影响。通过改变model atmosphere中的变量,研究人员可以探索增加温室气体排放如何影响温度和降水模式。这些信息对于政策制定者至关重要,他们需要就气候行动和可持续性做出明智决策。此外,model atmospheres对于理解空气污染及其对人类健康的影响至关重要。通过在model atmosphere中模拟污染物的扩散,科学家可以识别高污染水平风险区域并建议减轻暴露的措施。这在城市地区尤为重要,因为工业活动和车辆排放显著贡献了空气质量问题。在天文学领域,model atmospheres被用来研究天体,包括行星和恒星。例如,天文学家为系外行星创建model atmospheres以了解其潜在的宜居性。通过分析这些模型中的行星大气成分和温度,科学家可以确定条件是否适合已知的生命形式。总之,model atmosphere的概念多方面且在不同科学学科中服务于各种应用。从天气预报到气候建模和空气质量评估,这些理论构造提供了对我们大气动态的宝贵见解。随着技术的进步和我们对大气科学理解的加深,model atmospheres的准确性和可靠性将继续提高,从而增强我们应对环境挑战和保护我们星球的能力,以造福未来世代。
