simulations

简明释义

[ˌsɪmjuˈleɪʃənz][ˌsɪmjuˈleɪʃənz]

n. [计]模拟(simulation 的复数);[计]仿真

英英释义

Simulations are the process of imitating a real-world process or system over time.

模拟是指在一段时间内模仿真实世界的过程或系统。

They often involve the use of models to replicate the behavior of a system in order to analyze its performance under various conditions.

它们通常涉及使用模型来复制系统的行为,以便分析其在不同条件下的性能。

单词用法

numerical simulation

[化]数值模拟

computer simulation

计算机模拟

同义词

models

模型

The engineers created models to test the new design.

工程师们创建了模型来测试新设计。

replicas

复制品

They built replicas of historical buildings for the exhibition.

他们为展览建造了历史建筑的复制品。

mock-ups

样机

The mock-ups were used to visualize the final product.

样机被用来可视化最终产品。

imitations

仿制品

The imitations were not as effective as the original.

这些仿制品没有原版那么有效。

demonstrations

演示

The demonstrations helped to explain the complex process.

演示帮助解释了复杂的过程。

反义词

reality

现实

In reality, things are often more complicated than they seem.

在现实中,事情往往比看起来复杂得多。

actuality

实际情况

The actuality of the situation was different from what we had anticipated.

情况的实际情况与我们预期的不同。

例句

1.Simulations let you discover these sort of dynamic behaviors.

通过模拟可以发现此类动态行为。

2.Computer simulations show that tiny bubbles could have a profound cooling effect.

机算机模拟显示,微小气泡将产生深远的冷却效果。

3.But that's just what the new computer simulations will do.

但这正是新的计算机模拟要做的。

4.Computer simulations of this impact show that both of the objects would melt in the impact and the dense core of the impactor would fall as molten rock into the liquefied iron core of Earth.

对这次撞击的计算机模拟显示,这两个物体都会在撞击中熔化,而撞击者稠密的核心会以熔融岩石的形式落入地球的液化铁芯中。

5.The following workload simulations were used.

其中用到了以下工作负载模拟。

6.Computer simulations show that tiny bubbles could have a profound cooling effect.

机算机模拟显示,微小气泡将产生深远的冷却效果。

7.The data was supported by model simulations of cloud formation.

这些测量数据依托于云体形成的模拟模型。

8.This means that the simulations can be executed at very early stages of design.

这意味着模拟可以在设计的早期阶段执行。

9.The pilot underwent several flight simulations to prepare for the upcoming test.

飞行员进行了几次飞行模拟以为即将到来的测试做准备。

10.Scientists use computer simulations to predict climate changes over the next century.

科学家使用计算机模拟来预测未来一个世纪的气候变化。

11.The training program includes simulations of real-life emergency situations.

培训项目包括真实紧急情况的模拟

12.Game developers create simulations to test gameplay mechanics before release.

游戏开发者创建模拟来测试发布前的游戏机制。

13.Virtual reality simulations provide an immersive experience for users.

虚拟现实模拟为用户提供身临其境的体验。

作文

In today's rapidly evolving world, the concept of simulations (模拟) has become increasingly significant across various fields. From education to engineering, simulations provide a powerful tool for understanding complex systems and enhancing learning experiences. By creating virtual environments that mimic real-world scenarios, simulations allow individuals to experiment and learn without the risks associated with actual situations.One of the most prominent applications of simulations is in the field of education. For instance, medical students often use simulations to practice surgical procedures. These virtual platforms enable them to hone their skills in a controlled environment, where they can make mistakes and learn from them without endangering patients. This hands-on experience is invaluable, as it prepares students for the challenges they will face in their professional careers. Moreover, simulations can cater to different learning styles, providing visual, auditory, and kinesthetic learners with the opportunity to engage with the material in ways that suit them best.In addition to education, simulations are widely used in engineering and technology. Engineers often rely on simulations to test and optimize their designs before physical prototypes are built. For example, aerospace engineers use simulations to model the aerodynamic properties of aircraft. By simulating various flight conditions, they can identify potential issues and make necessary adjustments, ultimately saving time and resources. This approach not only enhances the efficiency of the design process but also contributes to the safety and reliability of the final product.The entertainment industry has also embraced simulations. Video games, for instance, often incorporate realistic simulations of physics and human behavior, creating immersive experiences for players. These simulations not only entertain but also serve as a means of social interaction and problem-solving. Players must navigate complex environments and make strategic decisions, which can foster critical thinking and teamwork skills.Furthermore, simulations play a crucial role in scientific research. Researchers use simulations to model climate change, predict natural disasters, and study the behavior of various biological systems. These computational models allow scientists to explore scenarios that would be difficult or impossible to replicate in real life. For instance, climate simulations can help policymakers understand the potential impacts of different environmental policies, guiding them in making informed decisions to mitigate climate change.Despite the numerous benefits of simulations, there are also limitations to consider. The accuracy of a simulation heavily depends on the quality of the data and the assumptions made during its development. If the input data is flawed or the model oversimplifies reality, the results may lead to incorrect conclusions. Therefore, it is essential to approach simulations with a critical mindset, recognizing their potential while also acknowledging their limitations.In conclusion, simulations (模拟) are an invaluable resource in various fields, offering opportunities for learning, experimentation, and innovation. As technology continues to advance, the capabilities of simulations will undoubtedly expand, further enhancing our understanding of the world around us. Whether in education, engineering, entertainment, or scientific research, the power of simulations is undeniable, and their impact will likely grow in the years to come.