Rigid bar ABC is supported by bronze rod (1) and stainless steel rod (2) as shown in the figure. A concentrated load of P = 23 kips is applied to the free end of bronze rod (3). Determine the magnitude of the deflection of rod end D after the temperature of all rods has increased by 85°F. Use the following dimensions and properties: a = 3.6ft, b = 6.6 ft. Rod (1): d1 = 1.05 in., Ly = 12 ft, Ep = 15,200 ksi, a, = 12.20 x 10-6/°F. Rod (2): d2 = 0.85 in., L2 = 8 ft, E2 = 28,000 ksi, a2 = 9.60 × 10-6/F. Rod (3): d3 = 1.35 in., L3 = 6 ft, Ez = 15,200 ksi, 03 = 12.20 × 10-6/°F.
Rigid bar ABC is supported by bronze rod (1) and stainless steel rod (2) as shown in the figure. A concentrated load of P = 23 kips is applied to the free end of bronze rod (3). Determine the magnitude of the deflection of rod end D after the temperature of all rods has increased by 85°F. Use the following dimensions and properties: a = 3.6ft, b = 6.6 ft. Rod (1): d1 = 1.05 in., Ly = 12 ft, Ep = 15,200 ksi, a, = 12.20 x 10-6/°F. Rod (2): d2 = 0.85 in., L2 = 8 ft, E2 = 28,000 ksi, a2 = 9.60 × 10-6/F. Rod (3): d3 = 1.35 in., L3 = 6 ft, Ez = 15,200 ksi, 03 = 12.20 × 10-6/°F.
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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Question
Rigid bar ABC is supported by bronze rod (1) and
stainless steel rod (2) as shown in the figure. A
concentrated load of P
= 23 kips is applied to the
free end of bronze rod (3). Determine the
magnitude of the deflection of rod end D after the
temperature of all rods has increased by 85°F. Use
the following dimensions and properties:
a = 3.6ft, b = 6.6 ft.
Rod (1): d1 = 1.05 in., Ly = 12 ft, Ep = 15,200
ksi, a, = 12.20 x 10-6/°F.
Rod (2): d2 = 0.85 in., L2 = 8 ft, E2 = 28,000
ksi, a2 = 9.60 × 10-6/F.
Rod (3): d3 = 1.35 in., L3 = 6 ft, Ez = 15,200
ksi, 03
= 12.20 × 10-6/°F.
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