A common belief is that a hole in a jet plane can suck a person out. On an episode of a popular TV series, the hosts attempted to determine whether this is possible. According to the hosts' experiment, such an event cannot happen.Did they need to perform the experiment? As a science adviser to the show, the hosts ask you to perform a crude calculation to test the myth. A typical jet plane travels at 532 mph at a cruising altitude of 32500 ft. The windows on a jet plane measure 14.0 in × 14.0 in. Calculate the force ? exerted on such a window as the plane flies at 32500 ft above the sea level. Assume the density and pressure of air at 32500 ft are 0.410 kg/m3 and 259 mbar, respectively, but that the interior of the plane remains pressurized to atmospheric pressure, 1 atm.What is the Force in lbs?Calculate the fractional difference between this force and the weight ?man of a typical adult male (185 lb).What is the Fracitonal difference (F/wMan)? How would you respond to Adam and Jaime?There is no need to perform the experiment; it is impossible for a person to be sucked out of a plane.My calculation does not prove that such an event cannot happen; you will need to perform the experiment. A common belief is that a hole in a jet plane can suck a person out. On an episode of a popular TV series, the hosts attempted to determine whether this is possible. According to the hosts' experiment, such an event cannot happen.Did they need to perform the experiment? As a science adviser to the show, the hosts ask you to perform a crude calculation to test the myth. A typical jet plane travels at 532 mph at a cruising altitude of 32500 ft. The windows on a jet plane measure \(14.0 \, \text{in} \times 14.0 \, \text{in}\). Calculate the force \(F\) exerted on such a window as the plane flies at 32500 ft above sea level. Assume the density and pressure of air at 32500 ft are 0.410 kg/m\(^3\) and 259 mbar, respectively, but that the interior of the plane remains pressurized to atmospheric pressure, 1 atm.\[ F = \]\[ \text{lb} \]Calculate the fractional difference between this force and the weight \( w_{\text{man}} \) of a typical adult male (185 lb).\[ \frac{F}{w_{\text{man}}} = \]\[ \]How would you respond to Adam and Jaime?- ☐ There is no need to perform the experiment; it is impossible for a person to be sucked out of a plane.- ☐ My calculation does not prove that such an event cannot happen; you will need to perform the experiment.

Name: A common belief is that a hole in a jet plane can suck a person out. O
Uploaded: 2024-03-20T06:51:10.000Z
Channel: Bartleby
Description: A common belief is that a hole in a jet plane can suck a person out. On an episode of a popular TV series, the hosts attempted to determine whether this is possible. According to the hosts' experiment, such an event cannot happen.Did they need to per