{"url":"https://computational-sediment-hyd.hatenablog.jp/entry/2022/02/20/153728","published":"2022-02-20 15:37:28","html":"<iframe src=\"https://hatenablog-parts.com/embed?url=https%3A%2F%2Fcomputational-sediment-hyd.hatenablog.jp%2Fentry%2F2022%2F02%2F20%2F153728\" title=\"\u96d1\u8ac7\uff1a\u6c88\u964d\u901f\u5ea6\u5f0f\u306e\u6bd4\u8f03 - \u8da3\u5473\u3067\u8a08\u7b97\u6d41\u7802\u6c34\u7406 Computational Sediment Hydraulics for Fun Learning \" class=\"embed-card embed-blogcard\" scrolling=\"no\" frameborder=\"0\" style=\"display: block; width: 100%; height: 190px; max-width: 500px; margin: 10px 0px;\"></iframe>","provider_url":"https://hatena.blog","description":"\u7279\u306b\u610f\u5473\u306f\u306a\u3044\u3067\u3059\u304c\u3001Rubey\u306e\u5f0f\u3068Van Rijn\u306e\u5f0f\u3092\u6bd4\u8f03\u3057\u3066\u307f\u307e\u3057\u305f\u3002 import numpy as np import holoviews as hv hv.extension('bokeh', logo=False) Settling velocity Equation Rubey https://www.ajsonline.org/content/s5-25/148/325 def rubeyw0(dd, nu=10**(-6)): rhosw = 1.65 # Specific gravity in water of sand g = 9.8 # acceleration o\u2026","author_name":"SedimentHydraulics","provider_name":"Hatena Blog","type":"rich","categories":["R"],"blog_title":"\u8da3\u5473\u3067\u8a08\u7b97\u6d41\u7802\u6c34\u7406 Computational Sediment Hydraulics for Fun Learning ","version":"1.0","height":"190","author_url":"https://blog.hatena.ne.jp/SedimentHydraulics/","title":"\u96d1\u8ac7\uff1a\u6c88\u964d\u901f\u5ea6\u5f0f\u306e\u6bd4\u8f03","image_url":"https://cdn-ak.f.st-hatena.com/images/fotolife/S/SedimentHydraulics/20220220/20220220152547.png","blog_url":"https://computational-sediment-hyd.hatenablog.jp/","width":"100%"}