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- 00:59, 23 June 2024 Brownian Motion MATLAB Code (hist | edit) [6,079 bytes] Bradley Monk (talk | contribs) (Created page with "==Brownian Motion MATLAB Code== <syntaxhighlight lang="matlab" line start="1"> function [tracks] = BrownianMotion() % STARTING PARAMETERS %----------------------------------------------------------- D = .3; % Diffusion Rate Ds = .1; % Diffusion Scalar (Ds = Dn) Dn = D/(D/Ds); % new D after scaling L d = 2; % dimensions dT = 1; % time step k = sqrt(d*D); % stdev of...")
- 01:45, 22 June 2024 Brownian Motions (hist | edit) [40,656 bytes] Bradley Monk (talk | contribs) (Created page with "Test")
- 11:49, 16 May 2024 Miren:TestDoc001 test1 (hist | edit) [8 bytes] Miren (talk | contribs) (Created page with "blahblah")
- 11:29, 16 May 2024 Miren:TestDoc001 outsideletters (hist | edit) [3,039 bytes] Miren (talk | contribs) (Created page with "[OUTSIDE LETTERS for Promotion, Career review, Step VI & Advancement to above scale (now included in the advanced notice email as of 2017)] – External Referee Recommendations: [Step VI: You have the option of including external referee letters for your file. If you wish to have external referee letters, let Miren know as soon as possible.] Please provide a list of up to three [five if tenure promotion] individuals from whom the Department may solicit letters regard...")
- 11:27, 16 May 2024 Miren:TestDoc001 (hist | edit) [614 bytes] Miren (talk | contribs) (Created page with "Test")
- 11:22, 16 May 2024 Miren:TestDoc Section 001 (hist | edit) [31 bytes] Bradley Monk (talk | contribs) (Created page with "Here is a transclusion template")
- 11:21, 16 May 2024 Miren:TestDoc (hist | edit) [35 bytes] Bradley Monk (talk | contribs) (Created page with "Test")
- 11:19, 16 May 2024 UCSD Master Document 001 (hist | edit) [4 bytes] Bradley Monk (talk | contribs) (Created page with "Test")
- 01:52, 18 April 2024 Dash (hist | edit) [136 bytes] Bradley Monk (talk | contribs) (Created page with "{{Box|width=45%|min-width=300px|float=left|font-size=14px|Regional Weather| The study of actin dynamics is centrally important to understanding synaptic plasticity. Fortunately, actin research has provided a vast pool of experimental studies, and several quantitative models that provide excellent characterizations of actin polymerization kinetics. To simulate filament scaffolding in a dendritic model, I developed a stochastic 3D model of actin dynamics b...")