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Blood takes about 1.55 s to pass through a 2.00 mm long capillary. If the diameter...
Blood takes about 1.65 s to pass through a 2.00-mm-long capillary. If the diameter of the...
Blood takes about 1.65 s to pass through a 2.00-mm-long capillary. If the diameter of the capillary is 5.00 μm and the pressure drop is 2.25 kPa, calculate the viscosity of blood. Assume laminar flow.
Previously we examined blood flow through a capillary. a) The average radius of a capillary is 3....
Previously we examined blood flow through a capillary. a) The average radius of a capillary is 3.0 um. The viscosity of blood is about o.0021 Pa*s, eaclh 7) capillary is approximately 1.0 mm long with a speed of about 1.omm/s, calculate the pressure "drop" from one end of a capillary to the other. b) The average blood pressure provided by the heart is about 100 mm Hg. A physiology textbook will tell you that the pressure has decreased to 35...
Blood flow is 83 mL/sec through each capillary. B.) The blood pressure difference across a capillary...
Blood flow is 83 mL/sec through each capillary. B.) The blood pressure difference across a capillary is 20 mmHg. Assuming that a capillary is about 7um in diameter on average, and that the viscosity of blood is 0.04 poise, calculate the theoretical length of a capillary. C.) The length of a capillary can be measure directly with a microscope and it usually ranges from 0.3 to 1.0 mm. Let us assume that the average length of a capillary is 0.65...
A.) The blood low out of the heart is about 83 mL/sec. Assuming that the blood...
A.) The blood low out of the heart is about 83 mL/sec. Assuming that the blood flows equally through all capillaries, estimate the blood flow through each capillary. B.) The blood pressure difference across a capillary is 20 mmHg. Assuming that a capillary is about 7um in diameter on average, and that the viscosity of blood is 0.04 poise, calculate the theoretical length of a capillary. C.) The length of a capillary can be measure directly with a microscope and...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel leaving the heart is 1.8cm. a. Determine the Re of the flow in this vessel. b. Is the flow laminar or turbulent? Explain. c. The smallest blood vessels have a diameter of 10m and a total area about 1000 times greater than the area of the vessel leaving the heart. Determine the Re in a typical capillary. d. By what factor does the diameter...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel leaving the heart is 1.8cm. Determine the Re of the flow in this vessel. Is the flow laminar or turbulent? Explain. The smallest blood vessels have a diameter of 10mm and a total area about 1000 times greater than the area of the vessel leaving the heart. Determine the Re in a typical capillary. By what factor does the diameter of a capillary have...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel leaving the heart is 1.8cm. a. Determine the Re of the flow in this vessel. b. Is the flow laminar or turbulent? Explain. The smallest blood vessels have a diameter of 10um and a total area about 1000 times greater than the area of the vessel leaving the heart. Determine the Re in a typical capillary. d. By what factor does the diameter of...
1) Air under standard conditions flows through a 5 mm diameter drawn tubing with an average...
1) Air under standard conditions flows through a 5 mm diameter drawn tubing with an average velocity of V 40 m/s. Determine the pressure drop (Ap) and head loss (h) if the length of tube is 10 cm. Assume minor losses are zero. Air density 1.23 kg/m3 Air viscosity 0.0000179 N.s/m2
i really appreciate it if explain this throughly June 1. Consider steady, fully-developed laminar flow of...
i really appreciate it if explain this throughly
June 1. Consider steady, fully-developed laminar flow of air through a Laminar Flow Element (LFE, a type of flow-meter) with an aligned bundle of 100 small bore tubes, each of diameter D 2.00 mm, and length L 200.0 mm. The pressure drop per unit length (Ap/L) across each of the 100 tubes is a function of the tube diameter D, fuid viscosity u (in units N s/m2), and average air velocity Vave....
The viscosity of blood is 2.10 × 10−3 Pa⋅s. * What is the pressure difference required...
The viscosity of blood is 2.10 × 10−3 Pa⋅s. * What is the pressure difference required to make blood flow through an artery of inner radius 2.00 mm and length 0.200 m at an average speed of 5.28 cm/s? ___ Pa * Blood flows through an artery of inner radius 2.00 mm and length 0.200 m at an average speed of 5.28 cm/s. What is the ratio of the pressure difference required to make blood flow through this artery to...
Previously we examined blood flow through a capillary. a) The average radius of a capillary is 3.0 um. The viscosity of blood is about o.0021 Pa*s, eaclh 7) capillary is approximately 1.0 mm long with a speed of about 1.omm/s, calculate the pressure "drop" from one end of a capillary to the other. b) The average blood pressure provided by the heart is about 100 mm Hg. A physiology textbook will tell you that the pressure has decreased to 35...
The human heart delivers a blood flow of about 5000ml/min. The diameter of the blood vessel leaving the heart is 1.8cm. a. Determine the Re of the flow in this vessel. b. Is the flow laminar or turbulent? Explain. The smallest blood vessels have a diameter of 10um and a total area about 1000 times greater than the area of the vessel leaving the heart. Determine the Re in a typical capillary. d. By what factor does the diameter of...
1) Air under standard conditions flows through a 5 mm diameter drawn tubing with an average velocity of V 40 m/s. Determine the pressure drop (Ap) and head loss (h) if the length of tube is 10 cm. Assume minor losses are zero. Air density 1.23 kg/m3 Air viscosity 0.0000179 N.s/m2
i really appreciate it if explain this throughly
June 1. Consider steady, fully-developed laminar flow of air through a Laminar Flow Element (LFE, a type of flow-meter) with an aligned bundle of 100 small bore tubes, each of diameter D 2.00 mm, and length L 200.0 mm. The pressure drop per unit length (Ap/L) across each of the 100 tubes is a function of the tube diameter D, fuid viscosity u (in units N s/m2), and average air velocity Vave....
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