Using reasonable estimates of height differences, calculate the blood pressure difference between each of the following...
Using reasonable estimates of height differences, calculate the blood pressure difference between each of the following and the heart (specifically, pressure at the body part minus pressure at the heart): head, hand, foot. Write the answers in Pa and in mm Hg. Assuming that the pressure at the heart is 120 mm Hg, calculate the pressure at the head, at the hand, and at the foot.
Homework Answers
Given,
The pressure at the heart = 120 mmHg
Let the height of the person be 180 cm
The heart is situated from head at a distance of = 60 cm
The foot is situated from heart at a distance of = 120 cm
Let the air density be 1.225 kg/m3
The pressure at head will be lesser by = 0.6 * 1.225 / 13.6
= 0.054m of Hg
= 54mm
The pressure at foot will be more by = 1.2*1.225 / 13.6
= 0.108m of Hg
= 108 mm
P heart - P head = 54 mm of Hg
=105 * 54 / 760
=7105 Pa
P heart - P foot = 108 mm of Hg
= 105 * 108 / 760
= -14210 Pa
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Using reasonable estimates of height differences, calculate the
blood pressure difference between each of the following...
Please show work. Using reasonable estimates of height differences, calculate the blood pressure difference between each...
Please show work.
Using reasonable estimates of height differences, calculate the blood pressure difference between each of the following and the heart (specifically, pressure at the body part minus pressure at the heart): head, hand, foot. Write the answers in Pa and in mm Hg. Assuming that the pressure at the heart is 120 mm Hg, calculate the pressure at the head, at the hand, and at the foot.
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Please show work.
Using reasonable estimates of height differences, calculate the blood pressure difference between each of the following and the heart (specifically, pressure at the body part minus pressure at the heart): head, hand, foot. Write the answers in Pa and in mm Hg. Assuming that the pressure at the heart is 120 mm Hg, calculate the pressure at the head, at the hand, and at the foot.
How
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12 Calculate the hydrostatic difference in blood pressure between the brain and the foot in a person of height 1.8 m. The density of blood is 1060 kg/m3. Ignore any pressure changes due to blood flow. A) 18.7 kPa B) 48.7 kPa C) 123 kPa D) 37 kPa
how can I calculate the speed at which the blood pressure wave
travels? using the data below
VR SU Part 1: The ECG and Pulse Distance between the subject's shoulder and mid-sternum: 2 c m Distance between the subject's shoulder and finger tip: 6.9 t cm Total Distance: 91 cm Time between the peak of the Rwave and Pulse peak: When subject was sitting with hands at room temperature: 10 secs .0 Ave. pulse amplitude before subject placed hand in...
1. (55 points) The investigators are interested in asses the relationship between Systolic Blood Pressure (SBP) in mm Hg and Age in years among Hypertensive Patients. Specif- ically, whether a patient's SBP can be predicted from his or her age. They selected n=122 patients at random from a medical record database in a hospital. Assume that the simple linear regression model is appropriate. The following table shows regression output of a simple linear regression model relating the SBP to the...
A.
B.
The 95% confidence interval is _____ <μd< _____.
(Round to two decimal places as needed.)
What does the confidence interval suggest about farmer Joe's
claim that type 1 seed is better than type 2 seed?
A. Because the confidence interval only includes positive values
and does not include zero, there
is not sufficient evidence to support farmer Joe's claim.
B. Because the confidence interval includes zero, there is
sufficient evidence to support farmer Joe's claim.
C. Because the...
14-5. Using Eqs. (14-14) and (14-17), calculate the van der Waals constants a and b for nitrogen. For u(r), assume a Lennard-Jones 6-12 potential with ε and σ given in Table 12-3. Compare these calculated values to the experimentally determined values, a 1.39 x 106 cm atm/mole and b-39.1 cm/mole. Such poor agreement is quite typical, simply indi- cating the inadequacy of the van der Waals equation. 14-2 THE VAN DER WAALS EQUATION We start with Eq. (14-3), and take...
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