full-scale experiment

简明释义

实尺实验

英英释义

例句

1.The government funded a full-scale experiment 全面实验 to test renewable energy sources in urban areas.

政府资助了一个全面实验 全面实验，以测试城市地区的可再生能源。

2.The team is preparing for a full-scale experiment 全面实验 to evaluate the impact of climate change on local ecosystems.

团队正在准备进行一个全面实验 全面实验，以评估气候变化对当地生态系统的影响。

3.The researchers decided to conduct a full-scale experiment 全面实验 to test the new drug's effectiveness on a larger population.

研究人员决定进行一个全面实验 全面实验，以测试新药在更大人群中的有效性。

4.Before launching the product, the company ran a full-scale experiment 全面实验 to gather consumer feedback.

在推出产品之前，公司进行了一个全面实验 全面实验以收集消费者反馈。

5.After successful pilot studies, they moved on to a full-scale experiment 全面实验 to validate their findings.

在成功的试点研究后，他们转向进行一个全面实验 全面实验以验证他们的发现。

作文

In the realm of scientific research and technological development, conducting a full-scale experiment is often a critical step in validating theories and assessing practical applications. A full-scale experiment (全面实验) refers to a comprehensive test that is carried out under real-world conditions, as opposed to smaller pilot studies or simulations. This type of experiment allows researchers to gather data that reflect the complexities and variabilities of actual environments, making the findings more applicable and reliable.For instance, consider the field of environmental science. When scientists develop a new method for cleaning polluted water, they may initially conduct laboratory tests to gauge its effectiveness. However, these controlled conditions might not capture all the variables present in a natural setting. Therefore, a full-scale experiment (全面实验) would involve implementing the water-cleaning method in a real river or lake. By observing the outcomes in this uncontrolled environment, researchers can better understand how the method performs under various conditions, such as changes in temperature, flow rate, or the presence of different pollutants.Moreover, full-scale experiments (全面实验) are crucial in the engineering sector, particularly when developing new infrastructure projects. Before constructing a large bridge or skyscraper, engineers often build smaller models to test their designs. However, these models can only simulate so much. A full-scale experiment (全面实验) entails building a section of the structure or using full-sized materials to assess stability, safety, and functionality. This hands-on approach helps identify potential issues that may not have been apparent during the design phase, ultimately leading to safer and more efficient construction practices.In the pharmaceutical industry, the importance of full-scale experiments (全面实验) cannot be overstated. After initial laboratory tests and clinical trials, a new drug must undergo extensive testing in a larger population to determine its efficacy and safety in varied demographics. These full-scale experiments (全面实验) provide invaluable data regarding side effects, interactions with other medications, and overall effectiveness across different age groups and health conditions.However, conducting a full-scale experiment (全面实验) is not without its challenges. The resources required—time, money, and manpower—can be significant. Additionally, ethical considerations must be taken into account, especially in fields like medicine and environmental science. Researchers must ensure that their experiments do not harm participants or the ecosystem, which may require extensive planning and oversight.Despite these challenges, the benefits of full-scale experiments (全面实验) are undeniable. They provide the empirical evidence needed to support hypotheses, refine technologies, and improve methodologies. As we continue to face global challenges such as climate change, public health crises, and technological advances, the role of full-scale experiments (全面实验) will be increasingly vital in guiding our responses and solutions.In conclusion, a full-scale experiment (全面实验) serves as a bridge between theoretical research and practical application. It allows scientists and engineers to test their ideas in real-world scenarios, ensuring that their innovations are effective and safe. As we navigate an ever-changing world, the insights gained from full-scale experiments (全面实验) will play a crucial role in shaping our future.

在科学研究和技术开发领域，进行一个全面实验（full-scale experiment）通常是验证理论和评估实际应用的重要步骤。全面实验（全面实验）是指在真实世界条件下进行的全面测试，而不是较小的试点研究或模拟。这种类型的实验使研究人员能够收集反映实际环境复杂性和变异性的数据，从而使发现更具适用性和可靠性。例如，考虑环境科学领域。当科学家开发一种新的水污染清理方法时，他们可能最初会在实验室进行测试，以评估其有效性。然而，这些受控条件可能无法捕捉到自然环境中存在的所有变量。因此，全面实验（全面实验）将涉及在真实的河流或湖泊中实施水清理方法。通过观察在这种不受控制的环境中的结果，研究人员可以更好地理解该方法在温度、流速或不同污染物存在等各种条件下的表现。此外，全面实验（全面实验）在工程领域至关重要，尤其是在开发新的基础设施项目时。在建造大型桥梁或摩天大楼之前，工程师通常会建造较小的模型来测试他们的设计。然而，这些模型只能模拟有限的情况。全面实验（全面实验）意味着建造结构的一部分或使用全尺寸材料来评估稳定性、安全性和功能性。这种动手的方法有助于识别在设计阶段可能未显现的潜在问题，从而最终导致更安全、更高效的施工实践。在制药行业，全面实验（全面实验）的重要性不容忽视。在初步的实验室测试和临床试验之后，新药必须在更大的人群中进行广泛测试，以确定其在不同人群中的有效性和安全性。这些全面实验（全面实验）提供了关于副作用、与其他药物的相互作用以及在不同年龄组和健康状况下的整体有效性的宝贵数据。然而，进行全面实验（全面实验）并非没有挑战。所需的资源——时间、金钱和人力——可能是巨大的。此外，伦理考虑必须被纳入考量，特别是在医学和环境科学等领域。研究人员必须确保他们的实验不会对参与者或生态系统造成伤害，这可能需要广泛的规划和监督。尽管面临这些挑战，全面实验（全面实验）的好处是不可否认的。它们提供了支持假设、完善技术和改进方法论所需的实证证据。随着我们继续面临全球性挑战，如气候变化、公共卫生危机和技术进步，全面实验（全面实验）在指导我们的应对和解决方案中将变得越来越重要。总之，全面实验（全面实验）充当理论研究与实际应用之间的桥梁。它使科学家和工程师能够在现实场景中测试他们的想法，确保他们的创新是有效和安全的。随着我们在不断变化的世界中航行，从全面实验（全面实验）中获得的见解将在塑造我们的未来中发挥关键作用。