Please wait a minute...
大学物理实验,2020,33(1):90-95https://doi.org/10.14139/j.cnki.cn22-1228.2020.01.023
本期目录|过刊浏览|高级检索 |
基于Matlab对不同状态下的麦克斯韦速率分布模拟应用
李怀诚1,鲁同所1,2*,李本超1, 胡婧1,卫东3
1. 西藏大学 理学院, 西藏 拉萨 850000; 2.中国科学院上海应用物理研究所, 上海 嘉定 201800;3.拉萨市气象局,西藏 拉萨 850000
Simulation applications of Maxwell velocity distribution in different states based on Matlab
Li Huaicheng1,Lu Tongsuo1,2*,LI Benchao1,Hu Jing1,Wei Dong3
下载:PDF(960KB)
输出:BibTeX|EndNote(RIS)
摘要

随着计算机技术的兴起,大学物理课程教学中应用到计算机的频率也越来越高,计算机模拟已经成为除实验研究与理论研究的第三种重要研究手段。本文主要是运用Matlab数值模拟软件编写一个可视化的应用程序,将麦克斯韦速率分布函数图像化,通过设置调节不同参数,直观、动态地演示其变化规律,补充和完善了传统教学的不足,增强物理知识学习过程中的实效性和趣味性,以期提高学生学习的积极性。

服务
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章
李怀诚
鲁同所
李本超
胡婧
卫东
关键词:麦克斯韦速率分布Matlab仿真模拟可视化
Abstract:

with the rapid rise and development of computer technology, Computers are being used more and more frequently in college physics teaching, and computer simulation has become the third important research method besides experimental research and theoretical research. This paper mainly uses a Matlab numerical simulation software to write a visual application. Image the Maxwell rate distribution function and adjust different parameters by setting. Intuitively and dynamically demonstrate the changing rules, supplementing and perfecting the shortcomings of traditional teaching. Enhance the effectiveness and interest in the learning process of physics knowledge, which improves students' initiative and enthusiasm to study.

Key words:Maxwell velocity distributionMatlabsimulationvisualization
出版日期:2020-02-25发布日期:2020-02-25整期出版日期:2020-02-25
ZTFLH: O4-39
引用本文:
李怀诚, 鲁同所, 李本超, 胡婧, 卫东. 基于Matlab对不同状态下的麦克斯韦速率分布模拟应用 [J]. 大学物理实验, 2020, 33(1): 90-95.
Li Huaicheng, Lu Tongsuo, LI Benchao, Hu Jing, Wei Dong. Simulation applications of Maxwell velocity distribution in different states based on Matlab . Physical Experiment of College, 2020, 33(1): 90-95.
链接本文:
http://dawushiyan.jlict.edu.cn/CN/10.14139/j.cnki.cn22-1228.2020.01.023http://dawushiyan.jlict.edu.cn/CN/Y2020/V33/I1/90
[1] 赵靓.泊松亮斑的模拟仿真研究[J]. 大学物理实验, 2020, 33(1): 82-84.
[2] 邓莉, 刘扬, 张汉中, 周科卫, 赵国汝, 魏鸾仪, 钎钎, 黄婉慧, 秦菱泽.高斯光束的4F光学系统空间滤波效应模拟与实验验证[J]. 大学物理实验, 2020, 33(1): 10-16.
[1] .[J]. Physical Experiment of College, 2020, 33(1): 0 .
[2] .[J]. Physical Experiment of College, 2020, 33(1): 0 .
[3] WU Ming, ZENG Hong, ZHANG Wenpeng, ZHANG Yuanwei, DAI Zhenbing.Theoretical and Experimental Research of A zimuthal-Radial Pendulum[J]. Physical Experiment of College, 2020, 33(1): 1 -6 .
[4] LIU Weiwei, SUN Qing, LIU Chenglin.Research on Selection of Critical Magnetization Current for Measuring Charge-Mass Ratio of Electron by Magnetron Controlling[J]. Physical Experiment of College, 2020, 33(1): 7 -9 .
[5] DENG Li, LIU Yang, ZHANG Hangzhong, ZHOU Kewei, ZHAO guoru, WEI luanyi.MATLAB simulation of Fourier transform of Gaussian beam and the spatial filtering effects basing on 4F optical imaging system[J]. Physical Experiment of College, 2020, 33(1): 10 -16 .
[6] MA Kun.Experiment Study on the Measuring Young' s Modulus by Stretching[J]. Physical Experiment of College, 2020, 33(1): 17 -20 .
[7] FEI Xianxiang, CHEN Chunlei, WANG Wenhua, SHI Wenqing, HUANG Cunyou.Design of Lens Group Focal Length Measurement System Based on Object-Image Parallax Comparison[J]. Physical Experiment of College, 2020, 33(1): 21 -24 .
[8] LI Chunjiang, LI Luyu, YANG Jinglei, LI Tingrong, XIANG Wenli.A New Method for Simple and Rapid Measurement of Refractive Index[J]. Physical Experiment of College, 2020, 33(1): 25 -28 .
[9] WANG Cuiping, YAO Mengyu, YE Liu, LI Aixia, ZHANG Ziyun, DAI Peng.Progress and Applications of Electron Spin Resonance in Biology[J]. Physical Experiment of College, 2020, 33(1): 29 -33 .
[10] CHEN Yingmo, SHEN Siyi, WANG Jie.Study on the Characteristics of Silicon Photocells[J]. Physical Experiment of College, 2020, 33(1): 34 -36 .
Viewed
Full text


Abstract

Cited

Shared
Discussed