Fundamentals of Aerodynamics
6th Edition
ISBN: 9781259129919
Author: John D. Anderson Jr.
Publisher: McGraw-Hill Education
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Chapter 7, Problem 7.13P
Note: In the following problems, you will deal with both the International System of Units (SI) (N, kg, m, s, K) and the English Engineering System (lb, slug, ft, s,
Bernoulli’s equation, Equation
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The clear plastic bottles used for carbonated beverages (sometimes also called
“soda,” “pop,” or “soda pop”) are made from poly(ethylene terephthalate)
(PET). The “fizz” in pop results from dissolved carbon dioxide (CO2); because
PET is permeable to CO2, pop stored in PET bottles will eventually go “flat”
(i.e., lose its fizz). A 20-oz. bottle of pop has a CO2 pressure of about 570 kPa
inside the bottle, and the CO2 pressure outside the bottle is 7 kPa.
Assuming conditions of steady-state, calculate the diffusion flux in cm3 at STP/cm2.s of CO2
through the wall of the bottle. The Permeability Constant of the PET bottle is 0.23 x 10^-13 cm3@STP.cm/cm2.s.Pa. Note: assume that each bottle has a surface area of 500 cm2 and a wall thickness of 0.07 cm. Answer in Scientific Notation example 1.1e-12.
Round your answer to 2 significant figures.
The clear plastic bottles used for carbonated beverages (sometimes also called
“soda,” “pop,” or “soda pop”) are made from poly(ethylene terephthalate)
(PET). The “fizz” in pop results from dissolved carbon dioxide (CO2); because
PET is permeable to CO2, pop stored in PET bottles will eventually go “flat”
(i.e., lose its fizz). A 20-oz. bottle of pop has a CO2 pressure of about 485 kPa
inside the bottle, and the CO2 pressure outside the bottle is 0.6 kPa.
The Permeability Constant of the PET bottle is 0.23 x 10^-13 cm3@STP.cm/cm2.s.Pa. Note: assume that each bottle has a surface area of 500 cm2 and a wall thickness of 0.07 cm. If the bottle must lose 750 (cm3 STP) of CO2 before the pop tastes flat, what is the shelf life in days for a bottle of pop?
Round your answer to 0 decimal places.
During the fall of 2005, Hurricane Wilma passed through the Gulf of Mexico. When the storm was classified as a category 5 hurricane, the pressure at the center of the hurricane was measured at 902 mbars. The highest wind velocity was 175 mph. Assuming the pressure far from the center of the hurricane was 1 bar and the air density was 1.2 kg m3 , estimate the pressure at the center of the hurricane. Comment on the difference in your prediction and the measured value and provide some rationale for the discrepancy.
The answer should be p = 914 mbar
Chapter 7 Solutions
Fundamentals of Aerodynamics
Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...Ch. 7 - Note: In the following problems, you will deal...
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