given
specific gravity
acceleration due to gravity
g= 9.8m/sec2
in three significant figur
A collapsible plastic bag (figure below) contains a glucose solution. If the average gauge pressure in...
A
collapsible plastic bag (figure below) contains a glucose solution.
If the average gauge pressure in the vein is 1.29 103
Pa,
what must be the minimum height h
of
the bag in order to infuse glucose into the vein? Assume the
specific gravity of the solution is 1.05.
h
=
m
A collapsible plastic bag (figure below) contains a glucose solution. If the average gauge pressure in the vein is 1.29 times 103 Pa, what must be the minimum height h...
A collapsible plastic bag (see figure below) contains a glucose
solution.
If the average gauge pressure in the artery is 1.31E+4
Pa, what must be the minimum height, h of the bag
in order to infuse glucose into the artery? Assume that the
specific gravity of the solution is 1.06.
4. (-/1 Points) DETAILS SERCP11 9.4.P.011. MY NOTES ASK YOUR TEACHER A collapsible plastic bag (figure below) contains a glucose solution. If the average gauge pressure in the vein is 1.37 x 103 Pa, what must be the minimum height h of the bag in order to infuse glucose into the vein? Assume the specific gravity of the solution is 1.03. h = m Glucose solution
If the average gauge pressure in the artery is 1.37E+4 Pa, what must be the minimum height, h of the bag in order to infuse glucose into the artery? Assume that the specific gravity of the solution is 1.02.
2. A liquid medicine is injected into a patient from an IV bag
elevated h = 0.800 m above the needle, see figure. The needle is
placed horizontally. The needle is 3.00 cm in length and 0.400 mm
in diameter. Assume the average gauge pressure inside the vein is
1.28 103 Pa; the viscosity of the medicine is 2.00 103 Pas;
and the density of the medicine is 1.05 103 kg/m3. (1) Calculate
the pressure difference between the...
A liquid medicine is injected into a patient from an IV bag elevated h = 0.800 m above the needle, see figure. The needle is placed horizontally. The needle is 3.00 cm in length and 0.400 mm in diameter. Assume the average gauge pressure inside the vein is 1.28 x 10^3 Pa; the viscosity of the medicine is 2.00 x 10^-3 Pa*s; and the density of the medicine is 1.05 x 10^3 kg/m^3 . (1) Calculate the pressure difference between...
A liquid medicine is injected into a patient from an IV bag elevated h-0.800 m above the needle, see figure. The needle is placed horizontally. The needle is 3.00 cm in length and 0.400 mm in diameter. Assume the average gauge pressure inside the vein is 1.28 x 103 Pa; the viscosity of the medicine is 2.00 10-3 Pa-s; and the density of the medicine is 1.05x 103 kg/m. (1) Calculate the pressure difference between the input and output of...
The pressure at section (2) shown in the figure below is not to fall below 65 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height, h, of the water tank under the assumption that (a) minor losses are negligible, (b) minor losses are not negligible. 10ft All pipe is 6-n.-diameter plastic ElD, flanged fittings 4ft Branch lin (21 Main line 600 ft with 15 90...
The pressure at section (2) shown in the figure is not to fall below 50 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height h of the water tank (note: minor losses need to be considered). 10 ft h All pipe is 6-in.-diameter plastic (€/D = 0), flanged fittings 6 ft Branch line (2) Main 1 line 2000 ft 1000 ft with 10 90-degree elbows...
The construction of a water pistol is shown in the figure below. The cylinder with cross-sectional area A, is filled with water and when the piston is pushed (by pulling the trigger), water is forced out the tube with cross-sectional area A. The radius of the cylinder and tube are, respectively, 1.50 cm and 1.40 mm, and the center of the tube is a height h = 3.00 cm above the center of the cylinder. (Assume atmospheric pressure is 1.013...