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相关概念视频

The Scientific Method01:32

The Scientific Method

The scientific method is a detailed, empirical problem-solving process used by biologists and other scientists. This iterative approach involves formulating a question based on observation, developing a testable potential explanation for the observation (called a hypothesis), making and testing predictions based on the hypothesis, and using the findings to create new hypotheses and predictions.Generally, predictions are tested using carefully-designed experiments. Based on the outcome of these...
The Scientific Method02:40

The Scientific Method

Research is what makes the difference between facts and opinions. Facts are observable realities, and opinions are personal judgments, conclusions, or attitudes that may or may not be accurate. In the scientific community, facts can be established only using evidence collected through empirical research.
The Scientific Method03:50

The Scientific Method

Chemistry is an empirical science. Scientists often pose questions to understand the chemistry in everyday life and seek answers to these questions. To achieve this, scientists follow a definitive series of steps that together make up the Scientific Method. This approach involves making observations, asking questions, building a hypothesis, conducting experiments, analyzing results, and forming a conclusion.
Quantifying Work02:30

Quantifying Work

As a system undergoes a change, its internal energy can change, and energy can be transferred from the system to the surroundings, or from the surroundings to the system.
Virtual Work01:20

Virtual Work

The principle of virtual work states that if a body is in static and dynamic equilibrium, then the sum of all the virtual work done by all external forces and couple moments for any given virtual displacement must be zero.
In static equilibrium, a body can experience an imaginary or virtual movement, such as displacement or rotation. The virtual work done by a force is equal to the dot product of force and virtual displacement in the direction of the force. When it comes to virtually rotating a...

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相关实验视频

Updated: Jul 8, 2026

Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction
10:36

Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction

Published on: May 20, 2018

科学工作站 在科学工作站

W Joy, J Gage

    Science (New York, N.Y.)
    |April 26, 1985
    PubMed
    概括
    此摘要是机器生成的。

    新的负担得起的个人电脑,称为工作站,提供了先进的功能. 这些工作站连接到各种系统,使得能够更广泛地访问计算资源和跨不同计算机类型的程序共享.

    更多相关视频

    Interactive and Visualized Online Experimentation System for Engineering Education and Research
    08:35

    Interactive and Visualized Online Experimentation System for Engineering Education and Research

    Published on: November 24, 2021

    A Virtual Simulation Experiment of Mechanics: Material Deformation and Failure Based on Scanning Electron Microscopy
    06:54

    A Virtual Simulation Experiment of Mechanics: Material Deformation and Failure Based on Scanning Electron Microscopy

    Published on: January 20, 2023

    相关实验视频

    Last Updated: Jul 8, 2026

    Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction
    10:36

    Stress Distribution During Cold Compression of Rocks and Mineral Aggregates Using Synchrotron-based X-Ray Diffraction

    Published on: May 20, 2018

    Interactive and Visualized Online Experimentation System for Engineering Education and Research
    08:35

    Interactive and Visualized Online Experimentation System for Engineering Education and Research

    Published on: November 24, 2021

    A Virtual Simulation Experiment of Mechanics: Material Deformation and Failure Based on Scanning Electron Microscopy
    06:54

    A Virtual Simulation Experiment of Mechanics: Material Deformation and Failure Based on Scanning Electron Microscopy

    Published on: January 20, 2023

    科学领域:

    • 计算机科学 计算机科学
    • 信息技术 信息技术 信息技术
    • 电气工程 电气工程

    背景情况:

    • 微处理器的进步正在使新一代个人计算机成为可能.
    • 这些被称为"工作站"的计算机提供了增强的计算能力和连接性.
    • 工作站弥合了个人计算和高性能系统之间的差距.

    研究的目的:

    • 介绍下一代工作站的概念和功能.
    • 突出工作站在各种计算环境中的潜力.
    • 讨论新兴标准在工作站集成中的作用.

    主要方法:

    • 对最近微处理器技术趋势的分析.
    • 检查工作站连接和集成能力.
    • 对通信,图形和软件新兴行业标准的审查.

    主要成果:

    • 由于微处理器创新,工作站正在变得可行和负担得起.
    • 这些系统可以与超级计算机,主机和远程网络接口.
    • 工作站支持以前仅限于主机的各种应用程序.

    结论:

    • 工作站代表了个人计算的重大进步.
    • 新兴的标准促进了跨不同计算机架构的无共享程序.
    • 工作站的整合提高了对强大的计算资源的可访问性.