Blood flows through a section
of a horizontal artery that is partially blocked by a deposit along
the artery wall. What is the speed of the blood in the partially
blocked region?
Volume flow rate at both section is same,
A1*v1 = A2*v2 where A1,A2 are area area of cross sections and v1,v2 are respective velocity
pi*2^2*0.40 = pi*1^2*v2
v2 =0.4*4 = 1.6 m/s^2
Fourth option is correct.
Blood flows through a section of a horizontal artery that is partially blocked by a deposit...
Focus on Concepts, Question 17 Try again. The change in pressure is incorrect. Blood flows through a section of a horizontal artery that is partially blocked by a deposit along the artery wall. As a hemoglobin molecule moves from the narrow region into the wider region, speed changes from vy-0.800m/s tovy -0.374 m/s. What is the change in pressure, that it experiences? The density of blood is 1060kg/ml Depot 245.708 the tolerance is +/-29
How its solved
4 A nonviscous blood (density 1060 kg/m3) passes through a horizontal artery. If the speed of blood changes from 4m/s to 8 m/s, as it enters a narrow region, the change in pressure Ap is A) 2120 Pa B) 4240 Pa C) 25440 Pa D) 50880 Pa
A liquid_p = 1.45 g/cm^2) flows through a horizontal pipe of varying cross section as in the figure below. In the first section, the cross-sectional area is 10.0 cm^2, the flow speed is 248 cm/s, and the pressure is 1.20 times 10^5 Pa. In the second section, the cross-sectional area is 4.50 cm^2. Calculate the smaller section's flow speed. (Enter your answer to at least two decimal places.) m/s Calculate the smaller section's pressure. Pa Whole blood has a surface...
In the figure, water flows through a horizontal pipe and then
out into the atmosphere at a speed v1 = 16.0
m/s. The diameters of the left and right sections of the pipe are
5.20 cm and 3.00 cm. (a) What volume of water
flows into the atmosphere during a 10 min period? In the left
section of the pipe, what are (b) the speed
v2 and (c) the gauge
pressure?
Question 1 In the figure, water flows through a...
V2 4.(17 points) In figure, water flows through a horizontal pipe and then out into the atmosphere at a speed vi=15 m/s. The diameters of the left and right section of the pipe are dz=0.05 m and d;=0.03 m. (a) What volume of water flows into the atmosphere during a 10 min period? In the left section of the pipe, what are (b) the speed v2 and (c) what is the pressure difference in the left and right parts of...
In the figure, water flows through a horizontal pipe and then out into the atmosphere at a speed v1 = 14.0 m/s. The diameters of the left and right sections of the pipe are 4.90 cm and 3.20 cm. (a) What volume of water flows into the atmosphere during a 10 min period? In the left section of the pipe, what are (b) the speed v2 and (c) the gauge pressure?
Water flows through a horizontal pipe and then out into the atmosphere at a speed V2 = 40 m/s. The diameters of the left and right sections of the pipe are 10.0 cm and 4.0 cm, respectively. Treat water as an incompressible fluid. What is the speed v, in the left section of the pipe? 6.40 ms 0 16.0 m/s 1.02 m/s 100 ms
In the figure, water flows through a horizontal pipe and then out into the atmosphere at a speed vi-14.0 m/s. The diameters of the left and right sections of the pipe are 4.80 cm and 2.70 cm. (a) What volume of water flows into the atmosphere during a 10 min period? In the left section of the pipe, what are (b) the speed v2 and (c) the gauge pressure? da
Question 1 In the figure, water flows through a horizontal pipe and then out into the atmosphere at a speed v1 = 13.0 m/s. The diameters of the left and right sections of the pipe are 5.10 cm and 3.00 cm. (a) What volume of water flows into the atmosphere during a 10 min period? In the left section of the pipe, what are (b) the speed v2 and (c) the gauge pressure? V2 (a) Number Units (b) Number Units...
After traveling through the body, blood flows into the main (M) pulmonary artery, which splits into the right (R) and left (L) pulmonary arteries to get oxygenated in the lungs. Assume the process is continuous and steady-state. Density (rho) of blood = 1.06 g/cm^3 Diameters (D): D_M = 2.95 cm; D_R = 1.98 cm; D_L = 2.21 cm Velocities (V): V_M = 10 cm/s; V_R = 8 cm/s a. If the relationship between flow velocity (V), cross-sectional area (A) and...