computer simulation

简明释义

计算机模拟

英英释义

例句

1.The engineers used computer simulation to test the new bridge design before construction.

工程师们使用计算机模拟在施工前测试新的桥梁设计。

2.The weather forecast relies heavily on computer simulation to model climate patterns.

天气预报在很大程度上依赖于计算机模拟来模拟气候模式。

3.In the medical field, computer simulation helps in predicting the outcomes of surgeries.

在医学领域，计算机模拟有助于预测手术的结果。

4.Students can learn about physics concepts through computer simulation of different experiments.

学生可以通过不同实验的计算机模拟学习物理概念。

5.The aerospace industry uses computer simulation to test aircraft performance under various conditions.

航空航天行业使用计算机模拟来测试飞机在各种条件下的性能。

作文

In today's technologically advanced world, the term computer simulation (计算机模拟) has become increasingly relevant across various fields. From scientific research to entertainment, computer simulation (计算机模拟) serves as a powerful tool that allows us to model complex systems and predict their behavior under different conditions. This essay will explore the significance of computer simulation (计算机模拟), its applications, and its impact on our understanding of the world around us.At its core, computer simulation (计算机模拟) involves creating a digital representation of a real-world process or system. By using mathematical models and algorithms, researchers can replicate the dynamics of physical phenomena, allowing for experimentation without the constraints and risks associated with real-life trials. For instance, in the field of meteorology, computer simulation (计算机模拟) is crucial for weather forecasting. Meteorologists use complex models to simulate atmospheric conditions, enabling them to predict weather patterns and provide timely warnings for natural disasters such as hurricanes and tornadoes.Moreover, computer simulation (计算机模拟) plays a vital role in engineering and design. Engineers utilize computer simulation (计算机模拟) to test prototypes and assess the performance of structures before they are built. This not only saves time and resources but also enhances safety by identifying potential failures in the design phase. For example, aerospace engineers rely on computer simulation (计算机模拟) to analyze the aerodynamics of aircraft, ensuring they meet stringent safety standards before taking to the skies.In the realm of healthcare, computer simulation (计算机模拟) is revolutionizing medical training and treatment planning. Medical students can engage in realistic virtual surgeries through computer simulation (计算机模拟), honing their skills in a risk-free environment. Additionally, doctors use computer simulation (计算机模拟) to create personalized treatment plans for patients by modeling how different therapies may affect their unique conditions. This approach not only improves patient outcomes but also optimizes resource allocation within healthcare systems.Furthermore, the entertainment industry has embraced computer simulation (计算机模拟) to create immersive experiences for audiences. Video games, virtual reality, and animated films all rely on sophisticated computer simulation (计算机模拟) techniques to bring fantastical worlds to life. These simulations enhance user engagement by providing interactive environments where players can explore and experiment freely.Despite its numerous advantages, it is essential to recognize the limitations of computer simulation (计算机模拟). The accuracy of a simulation depends heavily on the quality of the underlying models and assumptions. If these models are flawed or overly simplified, the predictions made by computer simulation (计算机模拟) can lead to misguided conclusions. Therefore, it is crucial for researchers and practitioners to continuously validate their simulations against real-world data to ensure reliability.In conclusion, computer simulation (计算机模拟) is an invaluable asset in modern society, facilitating advancements in various fields such as meteorology, engineering, healthcare, and entertainment. Its ability to model complex systems and predict outcomes has transformed our approach to problem-solving and decision-making. However, it is vital to remain aware of its limitations and strive for continuous improvement in simulation techniques. As technology continues to evolve, the role of computer simulation (计算机模拟) will undoubtedly grow, shaping the future of research and innovation.

在当今技术先进的世界中，术语计算机模拟（computer simulation）变得越来越相关，涵盖了各个领域。从科学研究到娱乐，计算机模拟（computer simulation）作为一种强大的工具，使我们能够对复杂系统进行建模，并预测其在不同条件下的行为。本文将探讨计算机模拟（computer simulation）的重要性、应用及其对我们理解周围世界的影响。计算机模拟（computer simulation）本质上是创建现实世界过程或系统的数字化表示。通过使用数学模型和算法，研究人员可以复制物理现象的动态，使实验在没有现实试验的限制和风险的情况下进行。例如，在气象学领域，计算机模拟（computer simulation）对于天气预报至关重要。气象学家利用复杂的模型来模拟大气条件，使他们能够预测天气模式，并及时发出自然灾害（例如飓风和龙卷风）的警报。此外，计算机模拟（computer simulation）在工程和设计领域也发挥着至关重要的作用。工程师利用计算机模拟（computer simulation）来测试原型并评估结构的性能，从而在建造之前进行评估。这不仅节省了时间和资源，还通过在设计阶段识别潜在故障来提高安全性。例如，航空工程师依赖于计算机模拟（computer simulation）分析飞机的空气动力学，以确保它们在起飞前符合严格的安全标准。在医疗保健领域，计算机模拟（computer simulation）正在革命化医学培训和治疗计划。医学生可以通过计算机模拟（computer simulation）参与逼真的虚拟手术，在无风险环境中磨练技能。此外，医生利用计算机模拟（computer simulation）为患者制定个性化的治疗计划，通过建模不同疗法如何影响他们独特的病情。这种方法不仅改善了患者的治疗效果，还优化了医疗系统内的资源分配。此外，娱乐行业也采用了计算机模拟（computer simulation）为观众创造沉浸式体验。视频游戏、虚拟现实和动画电影都依赖于复杂的计算机模拟（computer simulation）技术，将奇幻世界带入生活。这些模拟通过提供互动环境，使玩家能够自由探索和实验，从而增强用户的参与感。尽管有许多优点，但必须认识到计算机模拟（computer simulation）的局限性。模拟的准确性在很大程度上取决于基础模型和假设的质量。如果这些模型存在缺陷或过于简化，计算机模拟（computer simulation）所做的预测可能导致误导性的结论。因此，研究人员和从业者必须不断验证他们的模拟与现实数据的一致性，以确保可靠性。总之，计算机模拟（computer simulation）是现代社会中不可或缺的资产，促进了气象学、工程、医疗保健和娱乐等各个领域的发展。其对复杂系统建模和预测结果的能力改变了我们解决问题和决策的方法。然而，保持对其局限性的意识并努力持续改进模拟技术至关重要。随着技术的不断发展，计算机模拟（computer simulation）的角色无疑会不断增长，塑造研究和创新的未来。