1. The experimental Critical load is Instability of column test the ifrod material is Steel E-210 GP, the cross section

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1 The Experimental Critical Load Is Instability Of Column Test The Ifrod Material Is Steel E 210 Gp The Cross Section 1 (54 KiB) Viewed 46 times

1. The experimental Critical load is Instability of column test the ifrod material is Steel E-210 GP, the cross section is rectangular section with dimensions of 4 x 20 mm and length of 900 mm ir the data given in the below To for Pinned-Pinned and condition. Answer questions 1-3, PIN ymm) 25.0 0125 500 0.250 750 0.500 100.0 0.750 125 0 1000 1375 1.250 1500 1.500 1625 1.750 1750 2000 1 2. The theoretical Critical load is The percentage error is... For the stress-strain diagram shown below, answer questions 4-7 255 210 B 150 1425 Soesil MPE Uforplega Neeking 0 0.296 15% 35 .. The modulus of elasticity is: (Please fill your answer in the answer sheet) 5. 6. 7. 8. The modulus of Resilience is: (Please fill your answer in the wer sheet) If the specimen was initially of a diameter 10mm, the axial force acting on the specie Wyverne ... (Please fill your answer in the answer sheet) Let the specimen length is initially 150 mm, its final length just before fracture is (Please fill your answer in the answer sheet) In brittle materials, the fracture surface can be described as a) Normal to the axial force in tension and with an angle 45° in compression b) Normal to the axial force in compression and with an wygle 45° in tension c) Makes an angle 45° in both tension and compression. d) No rule govering the fracture shape.