A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B, as shown in Figure P5.36. When put in place, however, a gap of A = 0.25 in. exists between the two pipes. Bronze pipe (1) has an elastic modulus of E1 = 16,000 ksi, a cross-sectional area of A1 = 2.23 in.?, and a length of L1 = 5.0 ft. Aluminum alloy pipe (2) has an elastic modulus of E2 = 10,000 ksi, a cross-sectional area of A2 1.07 in. 2, and a length of L2 = 9.0 ft. If bolts are inserted in the flanges and tightened so that the gap at B is closed, determine: (a) the normal stresses produced in each of the members. (b) the final position of flange B with respect to support %3D %3D %3D %3D %3D A

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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A bronze pipe (1) is to be connected to an aluminum
alloy pipe (2) at flange B, as shown in Figure P5.36.
When put in place, however, a gap of A = 0.25 in. exists
between the two pipes. Bronze pipe (1) has an elastic
modulus of E1= 16,000 ksi, a cross-sectional area of A1
= 2.23 in.?, and a length of L1= 5.0 ft. Aluminum alloy
pipe (2) has an elastic modulus of E2 = 10,000 ksi, a
cross-sectional area of A2 = 1.07 in. 2, and a length of L2
= 9.0 ft. If bolts are inserted in the flanges and tightened
so that the gap at B is closed, determine:
(a) the normal stresses produced in each of the members.
(b) the final position of flange B with respect to support
L1
|
%3D
(1)
Transcribed Image Text:A bronze pipe (1) is to be connected to an aluminum alloy pipe (2) at flange B, as shown in Figure P5.36. When put in place, however, a gap of A = 0.25 in. exists between the two pipes. Bronze pipe (1) has an elastic modulus of E1= 16,000 ksi, a cross-sectional area of A1 = 2.23 in.?, and a length of L1= 5.0 ft. Aluminum alloy pipe (2) has an elastic modulus of E2 = 10,000 ksi, a cross-sectional area of A2 = 1.07 in. 2, and a length of L2 = 9.0 ft. If bolts are inserted in the flanges and tightened so that the gap at B is closed, determine: (a) the normal stresses produced in each of the members. (b) the final position of flange B with respect to support L1 | %3D (1)
um
36.
L1
L2
exists
astic
of A1
alloy
В
C
(2)
a
of L2
htened
(1)
FIGURE 5.36
embers.
pport
Transcribed Image Text:um 36. L1 L2 exists astic of A1 alloy В C (2) a of L2 htened (1) FIGURE 5.36 embers. pport
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