An astronaut stands upright inside a capsule on the moon's surface. What is the difference between the blood pressure at the lower part of his anterior tibial artery and the average blood pressure in his heart, that derives from the height differen 1.30 m shown in the illustration? Take the density of blood to be 1060 kg/m3 and acceleration due to gravity on the moon to be 1.62 m/s2. Beam Attenuation What happens to the uitr Allemasta As the ultraund beam tra Cnerge. The inteEty and th ndwave decras ia pr Aviriete of tieP ressure = P, Aorta 1.35 m Anterior tibial artery essure - P 8140 N/m2 6360 N/m2 2320 N/m2 2230 N/m2 7110 N/m2
An astronaut stands upright inside a capsule on the moon's surface. What is the difference between the blood pressure at the lower part of his anterior tibial artery and the average blood pressure in his heart, that derives from the height differen 1.30 m shown in the illustration? Take the density of blood to be 1060 kg/m3 and acceleration due to gravity on the moon to be 1.62 m/s2. Beam Attenuation What happens to the uitr Allemasta As the ultraund beam tra Cnerge. The inteEty and th ndwave decras ia pr Aviriete of tieP ressure = P, Aorta 1.35 m Anterior tibial artery essure - P 8140 N/m2 6360 N/m2 2320 N/m2 2230 N/m2 7110 N/m2
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Fluid Pressure
The term fluid pressure is coined as, the measurement of the force per unit area of a given surface of a closed container. It is a branch of physics that helps to study the properties of fluid under various conditions of force.
Gauge Pressure
Pressure is the physical force acting per unit area on a body; the applied force is perpendicular to the surface of the object per unit area. The air around us at sea level exerts a pressure (atmospheric pressure) of about 14.7 psi but this doesn’t seem to bother anyone as the bodily fluids are constantly pushing outwards with the same force but if one swims down into the ocean a few feet below the surface one can notice the difference, there is increased pressure on the eardrum, this is due to an increase in hydrostatic pressure.
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Not sure 2320 or 2230
Transcribed Image Text:An astronaut stands upright inside a capsule on the moon's surface. What is the
difference between the blood pressure at the lower part of his anterior tibial artery
and the average blood pressure in his heart, that derives from the height differen
1.30 m shown in the illustration? Take the density of blood to be 1060 kg/m3 and
Beam Attenuation
What happens to the ultra
-Altematon
acceleration due to gravity on the moon to be 1.62 m/s.
A- the ultrasund beam trav
EILETE. Thhe interitv und the
BELndwave derreases I a pri
ressure P,
Aorta
1.35 m
Anterior
tibial
artery
ressure P
8140 N/m2
6360 N/m2
O 2320 N/m2
2230 N/m2
7110 N/m2
...bol
N
B.
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