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di, E1 d3 dz, Ez 0,4 m. 0,5 m 0,7 m di = 80 mm, In the loaded system as in the figur e on the left, a blind hole of 0.4m 1 40 kN was drilled in the d2 diamete r and 0.5 m long part d3 diameter. A load of 140 kN is applied to the e nd of the system. Calculate how m uch the temperature of the system must be increased in order for the t otal deformation to be zero. E1 = 200 GPa a1=12x10-6 E2 = 100 GPa a2=16x10-6 d2 = 50 mm, d3= 30 mm

di, E1 d3 dz, Ez 0,4 m. 0,5 m 0,7 m di = 80 mm, In the loaded system as in the figur e on the left, a blind hole of 0.4m 1 40 kN was drilled in the d2 diamete r and 0.5 m long part d3 diameter. A load of 140 kN is applied to the e nd of the system. Calculate how m uch the temperature of the system must be increased in order for the t otal deformation to be zero. E1 = 200 GPa a1=12x10-6 E2 = 100 GPa a2=16x10-6 d2 = 50 mm, d3= 30 mm

Elements Of Electromagnetics
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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di, E1 dz, Ez 0,4 m 0,5 m 0,7 m di = 80 mm , In the loaded system as in the figur e on the left, a blind hole of 0.4m 1 40 kN was drilled in the d2 diamete r and 0.5 m long part d3 diameter. A load of 140 kN is applied to the e nd of the system. Calculate how m uch the temperature of the system must be increased in order for the t otal deformation to be zero. E1 = 200 GPa a1=12x10-6 E2 = 100 GPa a2=16x10-6 d2 = 50 mm, d3= 30 mm
Transcribed Image Text:di, E1 dz, Ez 0,4 m 0,5 m 0,7 m di = 80 mm , In the loaded system as in the figur e on the left, a blind hole of 0.4m 1 40 kN was drilled in the d2 diamete r and 0.5 m long part d3 diameter. A load of 140 kN is applied to the e nd of the system. Calculate how m uch the temperature of the system must be increased in order for the t otal deformation to be zero. E1 = 200 GPa a1=12x10-6 E2 = 100 GPa a2=16x10-6 d2 = 50 mm, d3= 30 mm
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