The tank shown in Figure below is fabricated from t = 1/8 in steel plate. The naximum longitudinal and circumferential stress caused by an internal pressure of 125 psi (Ib/in²). 1. Drive the expressions for longitudinal and tangentional stresses? 2. Calculate the maximum longitudinal and circumferential stress caused by an internal pressure? Fw Fw Fp Fp 2) 1.5 ft 2 ft (t = 1/8 in Fw Fw Fw Fw -2 ft 0.75 ft LONGITUDINAL STRESS, ₁ TANGENTIAL STRESS o, 2 ft 1.5 t

The tank shown in Figure below is fabricated from t = 1/8 in steel plate. The naximum longitudinal and circumferential stress caused by an internal pressure of 125 psi (Ib/in²). 1. Drive the expressions for longitudinal and tangentional stresses? 2. Calculate the maximum longitudinal and circumferential stress caused by an internal pressure? Fw Fw Fp Fp 2) 1.5 ft 2 ft (t = 1/8 in Fw Fw Fw Fw -2 ft 0.75 ft LONGITUDINAL STRESS, ₁ TANGENTIAL STRESS o, 2 ft 1.5 t

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Pressure Vessels

The term pressure vessel refers to a closed container that contains gas or liquid at a different pressure than environment pressure. The pressure vessels have a wide scale of applications in our day-to-day lives and other industrial places. Some common examples of pressure vessels are gas cylinders, autoclaves, compressor vessels, etc.

Question

Q.4
The tank shown in Figure below is fabricated from t = 1/8 in steel plate. The
maximum longitudinal and circumferential stress caused by an internal
pressure of 125 psi (Ib/in²).
1. Drive the expressions for longitudinal and tangentional stresses?
2. Calculate the maximum longitudinal and circumferential stress caused by
an internal pressure?
Fw
Fw
Fp
Fp
1.5 ft
-2 ft-
|t=1/8 in
Fw
Fw
Fw
Fw
LONGITUDINAL STRESS, ₁
2 ft
1.5 ft
2 ft
0.75 ft
TANGENTIAL STRESS 0,

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