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PARTICLES AND CONTINUOUS MATERIALS
BASIC IDEAS IN FLUID MECHANICS
15 other sections not shown
acceleration alveolar alveolar pressure amplitude aorta aortic valve approximately arterioles ascending aorta attenuation behaviour blood flow blood vessels boundary layer capillary wall cardiac Chapter circulation collagen collapse components concentration constant contractile contraction cross-sectional area curve deformation diameter diastole diffusion distance distensibility downstream effect elastic endothelial endothelium energy equal Equation example experimental experiments fibres filtration flow-rate force frequency haematocrit heart increase junction large arteries length lung mass measured mechanics membrane microcirculation molecules motion normal occurs oscillations osmotic pressure particle permeability physiological plasma Poiseuille Poiseuille flow predicted pressure difference pressure gradient pressure wave propagation properties pulmonary artery pulse quantity radius red cells reflected region Reynolds number sarcomere shear stress shear-rate shown in Fig smooth muscle studies surface suspension systole tension thickness tissue transmural pressure tube turbulence vascular veins velocity velocity profile vena cava ventricle ventricular venules vessel walls viscosity volume wave-form wave-speed wavelength Young's modulus zero