13.Your body reduces blood flow to a region by vasoconstriction. The artery can be modeled as acylinder with radius R and a length L, and one can consider only forces from pressure and tensionforces in the muscle with surface tension constant y = or where r is the thickness of the muscle.A. R50 micronsB. R 100 microns-C. R 200 microns.NORMAL ARTERYD. R-300 micronsE. R 400 micronsMUSCLEBOFLOWpressure forcesfrom the bloodAssuming that the pressure difference AP=10 kPa and a 200 kPa for a typical 10-micronmuscle, what is the largest-size blood vessel for which such a muscle could still constrict theblood vessel?tension forcesfrom muscle

Name: 13.Your body reduces blood flow to a region by vasoconstriction. The
Uploaded: 2024-03-20T06:56:55.000Z
Channel: Bartleby
Description: 13.Your body reduces blood flow to a region by vasoconstriction. The artery can be modeled as acylinder with radius R and a length L, and one can consider only forces from pressure and tensionforces in the muscle with surface tension constant y = or

Answered: Image /qna-images/answer/726eee0c-b596-4eae-be3e-3becb51bea23.jpg

Engineering

Mechanical Engineering

Your body reduces blood flow to a region by vasoconstriction. The artery can be modeled as a cylinder with radius R and a length L, and one can consider only forces from pressure and tension forces in the muscle with surface tension constant y = or where r is the thickness of the muscle. NORMAL ARTERY USCLE FLO pressure forces from the blood 2R tension forces from muscle Assuming that the pressure difference AP-10 kPa and o-200 kPa for a typical 10-micron muscle, what is the largest-size blood vessel for which such a muscle could still constrict the blood vessel?

Your body reduces blood flow to a region by vasoconstriction. The artery can be modeled as a cylinder with radius R and a length L, and one can consider only forces from pressure and tension forces in the muscle with surface tension constant y = or where r is the thickness of the muscle. NORMAL ARTERY USCLE FLO pressure forces from the blood 2R tension forces from muscle Assuming that the pressure difference AP-10 kPa and o-200 kPa for a typical 10-micron muscle, what is the largest-size blood vessel for which such a muscle could still constrict the blood vessel?

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Similar questions

%.00 @ 4G JO 100 I. Hw 1 Name: How many minutes you took ID. to solve this problem? Section: HW-1 Determine the magnitude and coordinate direction angles of the resultant force acting on the bracket. F = 450 N 45 60 F, = 600 N
5. A human being has an average venous blood pressure of 12 mm Hg (Hg = mercury). The density of Hg (mercury) is 13,530 kg/m3. How high does a saline bag have to be raised to just barely equal to that of the blood in the vein) of saline through a line and needle inserted into a person's vein? The density of saline is 1020 enable the flow (that is, the pressure of the saline at the needle kg/m3.
1. Determine the equivalent spring stiffness constant of the following. 150 N/m 240 N/m 60 N/m wwwwwww 290 N/m 105 N/m wwwwww 35 N/m a. 250 N/m www 145 N/m F Ans:
1. Determine the equivalent spring stiffness constant of the following. 240 N/m wwwwww a. 150 N/m 60 N/m 250 N/m 290 N/m 105 N/m F 145 N/m 35 N/m Ans:
ue 9:E0 • ZAIN IQ lI. ۱۳ شباط تحرير QI: Find the result of F4 Force acting on a body as shown below: 400 N 300 N 60 30 F;= 150 N F,- 260 N
4- A thermometer having a time constant of 0.4 min. is placed in a temperature bath and after the thermometer comes to equilibrium with the bath, the temperature of the bath is increased linearly with time at the rate of 2 deg.C min. what is the difference between the indicated temperature and bath temperature after : (a) 2 min. (b) 20 min.
Differantial Equations
ull JAWWAL ? 6:20 PM @ 50% A moodle.najah.edu МOODLE Recent - For the following system, answer the following assuming each tension in cable = 10 kN 1) Express tensions in Cartesian coordinate system 2) Find moment due to both cables and weight of door= 1 kN about point A 3) Find moment due to both cables and weight of door= 1 kN about z-axis 960 mm 450 mm 90 mm 675 mm B 90 mm 690 mm 270 mm Fig. P4.113 II
Distilled water at 10deg C stands in a glass tube of 9.0 mm diameter at a height of 24.00 mm. What is the true static height in mm if the surface tesnsion is 0.0742 N/m. a.24 mm b.27.4 mm c.20.6 mm d.3.4 mm
Wind power is defined as the use of air flow through wind turbines to provide the mechanical force to generate electricity. Wind power is an alternative to burning fossil fuels, and is renewable and produces no greenhouse gas emissions during operation. Modern horizontal-axis wind turbines often use three blades. Theoretically, the maximum power P (unit: watts) that a three-blade wind turbine can extract from the wind power can be calculated as: P = pAv³C₁. . (Equation 1) where p is the air density (kg/m³), A is the sweep area of the turbine (m²) and can be calculated from the length of the turbine blades, and v is the wind speed (m/s). Cp is the power coefficient that is unique to each turbine type. This coefficient represents the amount of kinetic energy from the wind that is captured by the turbine. From the Betz's limit law we know that the best power conversion possible is Cp,max = 0.59. Part 1 Given the following data: Blade length /= 50 m Air density p= 1.5 kg/m³ Power…
1. ! SHOW COMPLETE SOLUTION ! *pls draw FBD *pls use data give properly : rate will be low if not explained properly Problem 1: The pulleys are frictionless and of negligible weight Find: 1.1 Tension (N) in the cord supporting block B. 1.2 Acceleration at Block A (m/s^2) 1.3 Acceleration at Block B (m/s^2) 1.4 Acceleration at Block C (m/s^2)
F1: 0318, F2: 1,894, M: 8,942