Prove that the pressure variation along a capillary tube is p_i= p_o - gamma * h,...

1a - Which has the higher outward hydrostatic pressure? a. glomerular capillary b. Peritubular capillary along...

1a - Which has the higher outward hydrostatic pressure? a. glomerular capillary b. Peritubular capillary along the proximal convoluted tube 1b - True or False? Right after the blood comes out of the glomerulus, the capillary (along the proximal convoluted tubule) becomes wider, which lowers the hydrostatic pressure

An adiabatic capillary tube is used in some refrigeration systems to drop the pressure of the...

An adiabatic capillary tube is used in some refrigeration systems to drop the pressure of the refrigerant from the condenser level to the evaporator level. The R-134a enters the capillary tube as a saturated liquid at 60 oC. It is required that at the evaporator inlet the quality should be 20 percent. Determine: a) Exit temperature of the capillary tube b) Average Joule Thomson coefficient

An adiabatic capillary tube is used in some refrigeration systems to drop the pressure of the...

An adiabatic capillary tube is used in some refrigeration systems to drop the pressure of the refrigerant from the condenser level to the evaporator level. The R-134a enters the capillary tube as a saturated liquid at 50°C and leaves at -20°C. Determine the quality of the refrigerant at the inlet of the evaporator.

6a. Which of the following decreases the osmotic pressure in peritubular capillary along the proximal convoluted...

6a. Which of the following decreases the osmotic pressure in peritubular capillary along the proximal convoluted tubule? A. Efficient reabsorption of glucose B. Low reabsorption of sodium C. High protein concentration in blood after the glomerular filtration. D. None of above would decrease it. 6b. Between glomerular capillary and peritubular capillary along the proximal convoluted tubule, which one has higher outward hydrostatic pressure in a healthy person? A. glomerular capillary B. peritubular capillary along the proximal convoluted tubule C. They...

A capillary-tube viscometer is being selected to measure viscosity of a liquid food. The maximum viscosity...

A capillary-tube viscometer is being selected to measure viscosity of a liquid food. The maximum viscosity to be measured will be 230 cP, and the maximum flow rate that can be measured accurately is 0.015 kg/min. If the tube length is 10 cm and a maximum pressure of 25 Pa can be measured, determine the tube diameter to be used. The density of the product is 1000 kg/m3.

Use the Kelvin equation to calculate the radius of an open-ended tube within which capillary condensation...

Use the Kelvin equation to calculate the radius of an open-ended tube within which capillary condensation of nitrogen at 77 K and a relative pressure of 0.75 might be expected. Assume that prior adsorption of nitrogen has formed a layer 0.9 nm thick coating the inside of the tube. For nitrogen at 77 K the surface tension is 8.85 mN m-1 and the molar volume is 34.7 cm3 mol-1 .

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a...

(a) Fluid at a mass flow rate of 0.352 kg/s flows through a tube with a diameter of 15 mm and a length of 25 m. The inner surface of the tube is heated with a uniform heat flux of 1000 W/m2. Measurements shown that the inlet temperature of the fluid is 30 ˚C. Assume the outer surface of the tube is perfectly insulated. Consider the thermophysical properties of the fluid are as follows: density ρ = 1000 kg/m3, specific...

Combustion gases passing through a 2.3-cm-internal diameter circular tube are used to vaporize waste water at...

Combustion gases passing through a 2.3-cm-internal diameter circular tube are used to vaporize waste water at atmospheric pressure. Hot gases enter the tube at 115 kPa and 250°C at a mean velocity of 5 m/s, and leave at 150°C. If the average heat transfer coefficient is 120 W/m2 °C and the inner surface temperature of the tube is 112°C, determine the tube length. Answer in cm with two(2) decimal places.

Consider an internal flow through a circular tube. Assuming hydrodynamically fully developed condition, the velocity profile...

Consider an internal flow through a circular tube. Assuming hydrodynamically fully developed condition, the velocity profile is given as ??(??) = 2????????(1 ? ??^2/??^2 ). For constant surface heat flux case, a) Calculate NuD for thermally fully developed condition. b) Also, plot variations of tube surface temperature and mean fluid temperature along flow direction (x) including entry and fully developed region. c) Can you plot variation of convective heat transfer coefficient (h) along flow direction (x) including entry and fully...

1000 L/h of oil is heated from 40C to 70 C in a 3 cm ID...

1000 L/h of oil is heated from 40C to 70 C in a 3 cm ID heated copper tube. The inner surface of the tube is maintained at 100 C. Since the temperature dependencies of the fluid are not given, the properties will be assumed constant. Assume the viscosity ratio equal one. The following physical property data are available for the oil. ?? = 2090??? ? ? = 880 ??/?3 ? = 0.00062 ??/(? ?) ? = 0.173?/? ? ??...