文件名称:计算机模拟:热流,土地侵蚀,轨道等
文件大小:105.77MB
文件格式:ZIP
更新时间:2024-03-06 03:58:56
JupyterNotebook
计算机模拟 代码和模拟样本专注于Python中的热流,土地侵蚀,轨道等主题。 在UC Berkeley的EPS 109课程人员的指导下完成。 主题(带有星期#): 海量和表面积 曼德布洛特和Julia·塞特简单的数学模拟 扩散受限聚集 偏微分热方程 雅可比法 包含mp4文件 时变热方程 土地侵蚀 地震学使用obspy 轨道与微分方程 图像处理使用skimage
【文件预览】:
computer-simulations-main
----5 mandebrot, julia set()
--------.ipynb_checkpoints()
--------.DS_Store(6KB)
--------julia set 1.png(513KB)
--------pt3 covid solution(1.35MB)
--------corona_data_USA.txt(4KB)
--------trash.ipynb(7KB)
--------eps109 hw5 mandelbrot.ipynb(34.5MB)
--------julia set 3.png(344KB)
--------julia set 2.png(477KB)
----.DS_Store(10KB)
----13 image processing()
--------.ipynb_checkpoints()
--------.DS_Store(6KB)
--------landsat_band1.tif(4.21MB)
--------landsat_band9.tif(4.21MB)
--------2.jpg(175KB)
--------lab13.ipynb(283KB)
--------landsat_band6.tif(4.21MB)
--------landsat_band2.tif(4.21MB)
--------landsat_band3.tif(4.21MB)
--------landsat_band4.tif(4.21MB)
--------landsat_band5.tif(4.21MB)
--------almost_a_flag.jpg(3KB)
--------head_by_Ron_Mueck.jpg(1.26MB)
--------__pycache__()
--------landsat_band10.tif(4.21MB)
--------landsat_band7.tif(4.21MB)
--------image_manipulation.py(3KB)
--------landsat_band11.tif(4.21MB)
--------hw13 image processing.ipynb(2.32MB)
--------3.jpg(393KB)
--------landsat_band8.tif(4.21MB)
----8 heat2()
--------.ipynb_checkpoints()
--------lab8.mp4(353B)
--------.DS_Store(6KB)
--------8 tables.docx(102KB)
--------hw8.ipynb(33KB)
--------lab8.ipynb(16KB)
----9 erosion()
--------.ipynb_checkpoints()
--------.DS_Store(6KB)
--------changing K = 1.3e-6 looked the coolest.mp4(1.39MB)
--------cliff_landscape_altered_parameters.mp4(18.55MB)
--------erosion_13_with_ocean_for_homework.ipynb(24KB)
--------cliff_landscape_wacky_version.mp4(5.86MB)
--------erosion_11_for_lab.ipynb(968KB)
--------cliff_landscape.mp4(7.6MB)
--------__pycache__()
--------landscape.py(9KB)
--------landscapeWithOcean.py(10KB)
----6 dla()
--------.ipynb_checkpoints()
--------.DS_Store(6KB)
--------p = 0.3.png(215KB)
--------lab6 p = 0.01.png(185KB)
--------completed 6 DLA.ipynb(14KB)
--------6 part 2 b.png(210KB)
--------for fun 13000 particles.png(161KB)
--------6 part 2 a.png(180KB)
--------DLA.ipynb(8KB)
--------p = 0.08.png(155KB)
--------p = 0.001.png(84KB)
--------blank DLA.ipynb(5KB)
----README.md(598B)
----10 seismology()
--------.ipynb_checkpoints()
--------eps109 hw10.ipynb(777KB)
--------.DS_Store(6KB)
--------Screen Shot 2020-11-02 at 11.12.36 PM.png(3.1MB)
--------earthquakes15.ipynb(1.9MB)
----11 orbits, ordinary DE()
--------.ipynb_checkpoints()
--------hw11 runge-kutta horseshoe and tadpole.ipynb(571KB)
--------.DS_Store(6KB)
--------lab11 decay, orbits, runge-kutta.ipynb(31KB)
--------kepler_25_RK_simple_for_lecture.ipynb(66KB)
--------kepler_24_one_routine.ipynb(995B)
----4 ocean volume and surface()
--------.ipynb_checkpoints()
--------chukalea_5534821_78331808_eps109 hw4.ipynb(185KB)
--------.DS_Store(6KB)
--------eps109 lab4.ipynb(1.69MB)
--------eps109 hw4.ipynb(188KB)
----7 heat, partial DE()
--------.ipynb_checkpoints()
--------heatedL.mp4(2.16MB)
--------.DS_Store(6KB)
--------heat.mp4(1.19MB)
--------wave2d_14_mp4.ipynb(3KB)
--------wave2d.mp4(8KB)
--------wave1d.mp4(641KB)
--------lab7heat.ipynb(14KB)
--------wave1d_09_mp4.ipynb(2KB)
--------hw7heat.ipynb(46KB)
--------pt2heatedL.mp4(786KB)