Why do blood cells flatten themselves to squeeze through tiny gaps? 🔬 скачать в хорошем качестве

Why do blood cells flatten themselves to squeeze through tiny gaps? 🔬

Watch what happens when soft deformable particles — modelling red blood cells — navigate a narrow fluid channel blocked by two obstacles. This simulation was built entirely in C++ from scratch, solving the full fluid-structure interaction physics at the microscale. This is not stock footage. This is original computational physics research. The code behind this simulation will be released publicly for the research community soon — follow the channel to be notified the moment it drops. If you study biofluid mechanics, soft matter physics, microfluidics, or computational simulation, this channel is for you. 🔬 What you're seeing: — Soft elastic particles (red blood cell model) deforming under flow — Two rigid obstacles creating a constricted microchannel — Fluid-structure coupling solved in C++ — Real research output, not a render or animation 📌 Code release coming soon. Subscribe to get it first. #ComputationalPhysics #Simulation #BloodCells #Microfluidics #CFD #SoftMatter #BiophysicsSimulation #CppProgramming #FluidDynamics #ResearchCode #PhysicsSimulation #RedBloodCells #OpenSourceScience #BNBWU #PakistanResearch #ScienceYouTube