Estimate the volume flow rate (in units of m'/s) of the air that fills your lungs...
Estimate the volume flow rate (in units of m'/s) of the air that fills your lungs as you take a deep breath. volume flow rate: 1 x 10 m3/s
On a chilly 12∘C day, you quickly take a deep breath--all your lungs can hold, 4.0 L. The air warms to your body temperature of 37∘C. If the air starts at a pressure of 1.0 atm, and you hold the volume of your lungs constant (a good approximation) and the number of molecules in your lungs stays constant as well (also a good approximation), what is the increase in pressure inside your lungs?
1))))A person’s lungs might hold 6.0 x 10-3 m3 of air at body temperature (37 0C) and atmospheric pressure (101 kPa). Given that air is 21% oxygen (O2), find the number of O2 molecules in the lungs ans: 2.97 x 1022 2)) If the person takes a particularly deep breath, so that the lungs hold a total of 1.5 x 1023 molecules, what is the new volume of the lungs? [Answer: 6.35 x 10-3 m3 ]
You have a hose with a radius of 0.05 m. Calculate the volume flow rate of the fluid moving at a velocity of 3.00 m/s. A. 0.942 m/s B. 0.00750 m3/s OC. 0.471 m3/s OD.0.0236 m3/s
Auscultation •Listening to air flow sound •Ask patient to breath deeply than normal through an open mouth (instruct to stop if client feels dizzy) •Use the __________ of the stethoscope •Place stethoscope directly on bare skin •Hairy chest? •“Ladder” pattern •Listen to at least one full breath in each location •Know the location of each lobes •Do not listen on female breast (displace and listen on chest wall) or scapula which part of the stethoscope do you use to check...
Problem 15.64: The effect of altitude on the lungs. Part A Calculate the change in air pressure you will experience if you climb a 1250 m mountain, assuming that the temperature and air density do not change over this distance and that they were 22.0 ∘C and 1.20 kg/m3respectively, at the bottom of the mountain. Pa Part B If you took a 0.500 L breath at the foot of the mountain and managed to hold it until you reached the...
3. Calculate the volume flow rate in units of m/s through the 7.874" diameter tube in Fig. 2 if the flowing liquid is water and the manometer fluid is mercury. (30 points) Plate 7.874 in D. = 10 cm V, = 8 m/s Figure 1 Figure 2
Part A When you sneeze, the air in your lungs accelerates from rest to 145 km/h in approximately 0.30 s. What is the acceleration of the air in m/6 Express your answer to two significant figures and include the appropriate units.
At a flow rate (velocity) of 3 m/s, what is the volumetric flow rate in m3/s (Q) through a 0.1 m inside diameter pipe?