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A full-term fetus typically has a mass of 3.50 kg. (a) What pressure does the weight of such a fetus create if it rests on the mother’s bladder, supported on an area of 90 . 0 cm 2 size 12{"90" "." 0`"cm" rSup { size 8{2} } } {} ? (b) Convert this pressure to millimeters of mercury and determine if it alone is great enough to trigger the micturition reflex (it will add to any pressure already existing in the bladder).

(a) 3 . 81 × 10 3 N/m 2 size 12{3 "." "81" times "10" rSup { size 8{3} } `"N/m" rSup { size 8{2} } } {}

(b) 28.7 mm Hg size 12{"28" "." 7`"mm"`"Hg"} {} , which is sufficient to trigger micturition reflex

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If the pressure in the esophagus is 2.00 mm Hg size 12{ - 2 "." "00"`"mm"`"Hg"} {} while that in the stomach is + 20.0 mm Hg size 12{+"20" "." 0`"mm"`"Hg"} {} , to what height could stomach fluid rise in the esophagus, assuming a density of 1.10 g/mL? (This movement will not occur if the muscle closing the lower end of the esophagus is working properly.)

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Pressure in the spinal fluid is measured as shown in [link] . If the pressure in the spinal fluid is 10.0 mm Hg: (a) What is the reading of the water manometer in cm water? (b) What is the reading if the person sits up, placing the top of the fluid 60 cm above the tap? The fluid density is 1.05 g/mL.

Diagram of a person lying face-down on a table hooked up to a medical apparatus. A needle attached to a tube is inserted between the patient’s vertebrae in the lower back area. The tube, which appears to be filled with fluid, is connected to an upright tube containing an unknown amount of water. The height of the water in the tube is labeled question-mark centimeters H 2 O. A label pointing to the patient’s head reads P equals ten millimeters H g.
A water manometer used to measure pressure in the spinal fluid. The height of the fluid in the manometer is measured relative to the spinal column, and the manometer is open to the atmosphere. The measured pressure will be considerably greater if the person sits up.

(a) 13.6 m water

(b) 76.5 cm water

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Calculate the maximum force in newtons exerted by the blood on an aneurysm, or ballooning, in a major artery, given the maximum blood pressure for this person is 150 mm Hg and the effective area of the aneurysm is 20 . 0 cm 2 size 12{"20" "." 0`"cm" rSup { size 8{2} } } {} . Note that this force is great enough to cause further enlargement and subsequently greater force on the ever-thinner vessel wall.

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During heavy lifting, a disk between spinal vertebrae is subjected to a 5000-N compressional force. (a) What pressure is created, assuming that the disk has a uniform circular cross section 2.00 cm in radius? (b) What deformation is produced if the disk is 0.800 cm thick and has a Young’s modulus of 1 . 5 × 10 9 N/m 2 size 12{1 "." 5 times "10" rSup { size 8{9} } `"N/m" rSup { size 8{2} } } {} ?

(a) 3 . 98 × 10 6 Pa size 12{3 "." "98" times "10" rSup { size 8{6} } `"Pa"} {}

(b) 2 . 1 × 10 3 cm size 12{2 "." 1 times "10" rSup { size 8{ - 3} } `"cm"} {}

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When a person sits erect, increasing the vertical position of their brain by 36.0 cm, the heart must continue to pump blood to the brain at the same rate. (a) What is the gain in gravitational potential energy for 100 mL of blood raised 36.0 cm? (b) What is the drop in pressure, neglecting any losses due to friction? (c) Discuss how the gain in gravitational potential energy and the decrease in pressure are related.

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(a) How high will water rise in a glass capillary tube with a 0.500-mm radius? (b) How much gravitational potential energy does the water gain? (c) Discuss possible sources of this energy.

(a) 2.97 cm

(b) 3 . 39 × 10 6 J size 12{3 "." "39" times "10" rSup { size 8{ - 6} } `J} {}

(c) Work is done by the surface tension force through an effective distance h / 2 size 12{h/2} {} to raise the column of water.

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A negative pressure of 25.0 atm can sometimes be achieved with the device in [link] before the water separates. (a) To what height could such a negative gauge pressure raise water? (b) How much would a steel wire of the same diameter and length as this capillary stretch if suspended from above?

When the piston is raised the liquid separates and results in negative pressure.
(a) When the piston is raised, it stretches the liquid slightly, putting it under tension and creating a negative absolute pressure P = F / A size 12{P= - F/A} {} (b) The liquid eventually separates, giving an experimental limit to negative pressure in this liquid.
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Suppose you hit a steel nail with a 0.500-kg hammer, initially moving at 15.0 m/s size 12{"15" "." 0`"m/s"} {} and brought to rest in 2.80 mm. (a) What average force is exerted on the nail? (b) How much is the nail compressed if it is 2.50 mm in diameter and 6.00-cm long? (c) What pressure is created on the 1.00-mm-diameter tip of the nail?

(a) 2 . 01 × 10 4 N size 12{2 "." "01" times "10" rSup { size 8{4} } `N} {}

(b) 1 . 17 × 10 3 m size 12{1 "." "17" times "10" rSup { size 8{ - 3} } `m} {}

(c) 2 . 56 × 10 10 N/m 2 size 12{2 "." "56" times "10" rSup { size 8{8} } `"N/m" rSup { size 8{2} } } {}

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Calculate the pressure due to the ocean at the bottom of the Marianas Trench near the Philippines, given its depth is 11.0 km size 12{"11" "." 0`"km"} {} and assuming the density of sea water is constant all the way down. (b) Calculate the percent decrease in volume of sea water due to such a pressure, assuming its bulk modulus is the same as water and is constant. (c) What would be the percent increase in its density? Is the assumption of constant density valid? Will the actual pressure be greater or smaller than that calculated under this assumption?

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The hydraulic system of a backhoe is used to lift a load as shown in [link] . (a) Calculate the force F size 12{F} {} the slave cylinder must exert to support the 400-kg load and the 150-kg brace and shovel. (b) What is the pressure in the hydraulic fluid if the slave cylinder is 2.50 cm in diameter? (c) What force would you have to exert on a lever with a mechanical advantage of 5.00 acting on a master cylinder 0.800 cm in diameter to create this pressure?

Diagram of the arm and shovel of a backhoe lifting a load of dirt. The weight of the arm, w sub arm, is depicted as a vector extending vertically downward from the arm one point one zero meters from the top of the arm; w sub arm forms a thirty degree angle with the arm of the shovel. The weight of the load, w sub load, is depicted as a vector extending downward from the middle of the shovel one point seven zero meters from the top of the arm. Force F is a vector pushing the arm of the shovel zero point three zero meters from the top of the arm and perpendicular to the arm.
Hydraulic and mechanical lever systems are used in heavy machinery such as this back hoe.

(a) 1 . 38 × 10 4 N size 12{1 "." "38" times "10" rSup { size 8{4} } `N} {}

(b) 2 . 81 × 10 7 N/ m 2 size 12{2 "." "81" times "10" rSup { size 8{7} } `N} {}

(c) 283 N

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Some miners wish to remove water from a mine shaft. A pipe is lowered to the water 90 m below, and a negative pressure is applied to raise the water. (a) Calculate the pressure needed to raise the water. (b) What is unreasonable about this pressure? (c) What is unreasonable about the premise?

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You are pumping up a bicycle tire with a hand pump, the piston of which has a 2.00-cm radius.

(a) What force in newtons must you exert to create a pressure of 6 . 90 × 10 5 Pa size 12{6 "." "90" times "10" rSup { size 8{5} } `"Pa"} {} (b) What is unreasonable about this (a) result? (c) Which premises are unreasonable or inconsistent?

(a) 867 N

(b) This is too much force to exert with a hand pump.

(c) The assumed radius of the pump is too large; it would be nearly two inches in diameter—too large for a pump or even a master cylinder. The pressure is reasonable for bicycle tires.

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Consider a group of people trying to stay afloat after their boat strikes a log in a lake. Construct a problem in which you calculate the number of people that can cling to the log and keep their heads out of the water. Among the variables to be considered are the size and density of the log, and what is needed to keep a person’s head and arms above water without swimming or treading water.

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The alveoli in emphysema victims are damaged and effectively form larger sacs. Construct a problem in which you calculate the loss of pressure due to surface tension in the alveoli because of their larger average diameters. (Part of the lung’s ability to expel air results from pressure created by surface tension in the alveoli.) Among the things to consider are the normal surface tension of the fluid lining the alveoli, the average alveolar radius in normal individuals and its average in emphysema sufferers.

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Practice Key Terms 5

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Source:  OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9
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