Proceedings of the International School of Physics "Enrico Fermi.", Volume 76N. Zanichelli, 1981 - Nuclear physics |
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Page 138
... flow as long as P1 - P2 is sufficient to overcome the pressure drop in the Starling resistance . In fact , when Pi P , is large , the tube will only open to a narrow channel to let flow F pass ( F is supposed to be limited by some other ...
... flow as long as P1 - P2 is sufficient to overcome the pressure drop in the Starling resistance . In fact , when Pi P , is large , the tube will only open to a narrow channel to let flow F pass ( F is supposed to be limited by some other ...
Page 213
... flow that have been of primary interest to the investigators . 2. Parameters of cardiovascular flow and function . - In general , the areas of interest for cardiovascular flow studies may be divided into two categories : 1 ) the ...
... flow that have been of primary interest to the investigators . 2. Parameters of cardiovascular flow and function . - In general , the areas of interest for cardiovascular flow studies may be divided into two categories : 1 ) the ...
Page 294
... flow resistance . The airway resistance to gas flow is defined as the pressure difference between the alveoli and the mouth , divided by the flow rate . The units are therefore cm H2O s / l . This resistance depends on the nature of the ...
... flow resistance . The airway resistance to gas flow is defined as the pressure difference between the alveoli and the mouth , divided by the flow rate . The units are therefore cm H2O s / l . This resistance depends on the nature of the ...
Contents
A R D THORNTON | 1 |
Physicists and clinicians | 5 |
The Fourier transform properties of an image | 12 |
Copyright | |
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alveolar amplitude analysis aorta aortic approximately arterial pressure arterial system attenuation value basilar membrane beam blood flow blood pressure C₁ capillary cardiac output circulation clinical cm³ CO₂ cochlea cochlear compartment compliance components computed tomography concentration constant counting rate cross-section cuff decrease detector diameter diastolic distribution effect elastin electrode energy equation filter fluid Fourier transform frame frequency function haemoglobin hair cells halothane heart rate impulse response increase left heart linear linear-attenuation coefficient lung manometer measured medical physics membrane method mmHg muscle normal obtained oxygen P₁ P₂ pacemaker patient peripheral resistance photons physicist physiological pulmonary pulsatile pulse ratio region Rendiconti S.I.F. sample scan scanner segment shown in fig shows signal stroke volume systolic techniques tissues transducer transmural pressure tube ultrasonic V₁ velocity venous system ventilation ventricle ventricular vessel viscoelastic volume wall wave form Windkessel X-ray zero