es Four identical sections of pipe are connected in various ways to pumps that supply water at the pressures indicated in the figure. The water exits at the right at 1.00 atm. Assume viscous flow. If the total volume flow rate in system B is 0.0227 m³/s, what is the total volume flow rate in system C? B P= 5.00 atm- P= 3.00 atm- m³/s

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Four identical sections of pipe are connected in various ways to pumps that supply water at the pressures indicated in the figure. The
water exits at the right at 1.00 atm. Assume viscous flow. If the total volume flow rate in system B is 0.0227 m³/s, what is the total
volume flow rate in system C?
B
P=5.00 atm-
P= 3.00 atm-
m³/s
Blood plasma (at 37.0°C) is to be supplied to a patient at the rate of 2.80 x 10-6 m3/s. If the tube connecting the plasma to the patient's
vein has a radius of 2.00 mm and a length of 55.4 cm, what is the pressure difference between the plasma and the patient's vein?
Viscosity of blood plasma is 1.30 x 10-3 Pa-s.
Pa
Assume a water strider has a roughly circular foot of radius 0.0116 mm. The surface tension of water is 0.0700 N/m.
What is the maximum possible upward force on the foot due to surface tension of the water?
N
please answer all 3 step by step so I know how to do these. I will give a like.
Transcribed Image Text:Four identical sections of pipe are connected in various ways to pumps that supply water at the pressures indicated in the figure. The water exits at the right at 1.00 atm. Assume viscous flow. If the total volume flow rate in system B is 0.0227 m³/s, what is the total volume flow rate in system C? B P=5.00 atm- P= 3.00 atm- m³/s Blood plasma (at 37.0°C) is to be supplied to a patient at the rate of 2.80 x 10-6 m3/s. If the tube connecting the plasma to the patient's vein has a radius of 2.00 mm and a length of 55.4 cm, what is the pressure difference between the plasma and the patient's vein? Viscosity of blood plasma is 1.30 x 10-3 Pa-s. Pa Assume a water strider has a roughly circular foot of radius 0.0116 mm. The surface tension of water is 0.0700 N/m. What is the maximum possible upward force on the foot due to surface tension of the water? N please answer all 3 step by step so I know how to do these. I will give a like.
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