2. The air pressure in the top of the 2-liter pop bottle shown in Fig. below is 40 psi, and the pop depth is 10 in. The bottom of the bottle has an irregular shape with a diameter of 4.3 in. (a) If the bottle cap has a diameter of 1 in. what is the magnitude of the axial force required to hold the cap in place in Ibs? (b) Determine the force needed to secure the bottom 2 in. of the bottle to its cylindrical Sides in Ibs. For this calculation assume the effect of the weight of the pop is negligible. (c) By how much does the weight of the pop increase the pressure 2 in. above the bottom in Ibs? Assume the pop has the same specific weight as that of water.

2. The air pressure in the top of the 2-liter pop bottle shown in Fig. below is 40 psi, and the pop depth is 10 in. The bottom of the bottle has an irregular shape with a diameter of 4.3 in. (a) If the bottle cap has a diameter of 1 in. what is the magnitude of the axial force required to hold the cap in place in Ibs? (b) Determine the force needed to secure the bottom 2 in. of the bottle to its cylindrical Sides in Ibs. For this calculation assume the effect of the weight of the pop is negligible. (c) By how much does the weight of the pop increase the pressure 2 in. above the bottom in Ibs? Assume the pop has the same specific weight as that of water.

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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