div class="wrap-book-mode"> v class="wrap-book-mode"> k-mode"> mode"> de"> mgrcttps://prior.studentlibrary.ru/patrns/book_read/book_mode_gr.pngps://prior.studentlibrary.ru/patrns/book_read/book_mode_gr.png://prior.studentlibrary.ru/patrns/book_read/book_mode_gr.png/prior.studentlibrary.ru/patrns/book_read/book_mode_gr.pngor.studentlibrary.ru/patrns/book_read/book_mode_gr.png.studentlibrary.ru/patrns/book_read/book_mode_gr.pngalt=an class="">Basic Laws of Hemodynamicsamicsics/b>>span>an>>lassssBasic laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.pan class="">Basic laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.n class="">Basic laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.class="">Basic laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used."">Basic laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.>Basic laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.c laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.laws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ws of passage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.assage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.sage of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ge of fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. fluids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.luids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ids through tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.gh tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. tubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ubes are described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.re described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. described by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.escribed by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. by a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.y a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.a branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.branch of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. of physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.f physics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.sics called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.cs called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. called hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. hydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ydrodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.rodynamics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.amics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ics. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.s. According to the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.o the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.the laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.e laws of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. of hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.f hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.hydrodynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.odynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ynamics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.amics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ics, the flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.he flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. flow of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. of fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.f fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.fluid through a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.hrough a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ough a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.gh a tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.tube depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.be depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. depends on pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.pressure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.essure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.sure difference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ifference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ference between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.rence between the inflow and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.w and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.and the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.d the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.the outflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.tflow ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.low ends of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.nds of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.s of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.of the tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.tube, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.be, on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used., on the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.the diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.e diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.diameter of the tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.he tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. tube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ube and on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.d on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.on resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used. resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.resistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.sistance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.stance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.ance to the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.o the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.the flowing fluid. The more the pressure difference, the higher the velocity of fluid flowing through the tube. The higher the resistance, the lower the velocity. To characterize the process of passage of fluid through a tube, a concept of volume flow rate, or volume flow, is used.lowing fluid. 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Volume flow can be calculated from the equation of Poiseuille:pan class="">Volume flow rate is a volume of fluid passing through the cross section of a tube per unit time. Volume flow can be calculated from the equation of Poiseuille:n class="">Volume flow rate is a volume of fluid passing through the cross section of a tube per unit time. Volume flow can be calculated from the equation of Poiseuille:class="">Volume flow rate is a volume of fluid passing through the cross section of a tube per unit time. Volume flow can be calculated from the equation of Poiseuille:"">Volume flow rate is a volume of fluid passing through the cross section of a tube per unit time. Volume flow can be calculated from the equation of Poiseuille:>Volume flow rate is a volume of fluid passing through the cross section of a tube per unit time. Volume flow can be calculated from the equation of Poiseuille:me flow rate is a volume of fluid passing through the cross section of a tube per unit time. 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ОСНОВНЫЕ ФИЗИОЛОГИЧЕСКИЕ СВОЙСТВА ВОЗБУДИМЫХ ТКАНЕЙ�СНОВНЫЕ ФИЗИОЛОГИЧЕСКИЕ СВОЙСТВА ВОЗБУДИМЫХ ТКАНЕЙ�НОВНЫЕ ФИЗИОЛОГИЧЕСКИЕ СВОЙСТВА ВОЗБУДИМЫХ ТКАНЕЙ�ОВНЫЕ ФИЗИОЛОГИЧЕСКИЕ СВОЙСТВА ВОЗБУДИМЫХ ТКАНЕЙior.studentlibrary.ru/ru/doc/ISBN9785970446782-0005.htmlr.studentlibrary.ru/ru/doc/ISBN9785970446782-0005.htmlstudentlibrary.ru/ru/doc/ISBN9785970446782-0005.htmludentlibrary.ru/ru/doc/ISBN9785970446782-0005.htmlentlibrary.ru/ru/doc/ISBN9785970446782-0005.htmltlibrary.ru/ru/doc/ISBN9785970446782-0005.htmlibrary.ru/ru/doc/ISBN9785970446782-0005.htmlry.ru/ru/doc/ISBN9785970446782-0005.html.ru/ru/doc/ISBN9785970446782-0005.htmlu/ru/doc/ISBN9785970446782-0005.html/doc/ISBN9785970446782-0005.htmloc/ISBN9785970446782-0005.htmlN9785970446782-0005.html785970446782-0005.html5970446782-0005.html.htmltmlllassЛекция 4. БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫекция 4. БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫкция 4. БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫция 4. БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫия 4. БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫя 4. БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫ БИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫ�ИОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫ�ОЭЛЕКТРИЧЕСТВО И ЕГО МЕХАНИЗМЫ9785970446782-001185970446782-0011970446782-0011782-00112-00110011efНТРАЛЬНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАТРАЛЬНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАРАЛЬНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГААЛЬНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАЛЬНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАЬНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАНОЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАЙ НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГА НЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГА�ЕРВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГА�ВНОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГА�НОЙ СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГА� СИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАСИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГАИСТЕМЫ. ФИЗИОЛОГИЯ СПИННОГО МОЗГА�ИЗИОЛОГИЯ СПИННОГО МОЗГА�ЗИОЛОГИЯ СПИННОГО МОЗГА�ИОЛОГИЯ СПИННОГО МОЗГАОЛОГИЯ СПИННОГО МОЗГАЛОГИЯ СПИННОГО МОЗГАОГИЯ СПИННОГО МОЗГАЗГАГАА