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 toHetermine 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 toest the myth. A typical jet plane travels at 508 mph at a cruising altitude of 25500 ft. The windows on a jet plane measure114.0 in x 14.0 in.DAssume the density and pressure of air at 25500 ft are 0.562 kg/m³ and 382 mbar, respectively, but that the interior of the planeFemains pressurized to atmospheric pressure, 1 atm.Calculate the force F exerted on such a window as the planeHies at 25500 ft above the sea level.Calculate the fractional difference between this force and theweight Wman of a typical adult male (185 lb).F =F=Wmanlb

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Answered: A common belief is that a hole in a jet…

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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ASK YOUR TEACHER PRACTICE ANOTHER Since neutron stars consist totally of neutrons, they are extremely massive and have a density that is hard to imagine. A typical radius and mass for a neutron star are 1.65 x 10 m and 2.50 x 1028 kg respectively. (a) Determine the density of a neutron star. kg/m (b) Determine the weight (in pounds) of a penny (V = 360 mm-) if it were made from this material. (Assume 1 lb = 4.448 N.) Ib Additional Materials
Since neutron stars consist totally of neutrons, they are extremely massive and have a density that is hard to imagine. A typical radius and mass for a neutron star are 1.30 x 10³ m and 3.60 x 1028 kg respectively. (a) Determine the density of a neutron star. kg/m³ (b) Determine the weight (in pounds) of a penny (V = 360 mm³) if it were made from this material. (Assume 1 lb = 4.448 N.) lb
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Since neutron stars consist totally of neutrons, they are extremely massive and have a density that is hard to imagine. A typical radius and mass for a neutron star are 2.00 x 103 m and 4.00 x 1048 kg respectively. (a) Determine the density of a neutron star. kg/m3 (b) Determine the weight (in pounds) of a penny (V = 360 mm) if it were made from this material. (Assume 1 lb = 4.448 N.) Ib

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