Learning Goal: To determine the original length of a slender rod given the normal strain and deformation experienced by the rod due to an applied axial load. As shown, rod AB is subjected to the loading of two blocks, each of weight W (and where we neglect the mass of the pulley). The loading creates a normal strain in the rod given by

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T Part A-Initial length Determine the initial length of the rod, L. measured before the loading is applied. Express the initial length in inches to three significant figures. View Available Hint(s) 197) ΑΣΦΑ 14 Submil Part B - Average nunmal strain in the rad Submit vec στ ΑΣΦ LOL A Submit Determine the average normal strain in the tod Express the average normal strain in inches per inch to three significant figures. View Available Hint(s) P Ad Ivec Ĉ AZO 17 YOG ? A Ć in Part C- New original length of the rad For the piment, It few ten shown the ty doubling the magnitude of wachticks welginto 24 the whenommation of the roas dousie Its a value. Deterras teraso of the intalngth of the new to the intalt of the org Express the ratio of lengths to three significant figures. View Available Hits) ? in/in ?

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- Ch2 Tutorial eformation due to Axial Loading Learning Goal: To determine the original length of a slender rod given the normal strain and deformation experienced by the rod due to an applied axial load. As shown, rod AB is subjected to the loading of two blocks, each of weight W (and where neglect the mass of the pulley). The loading creates a normal strain in the rod given by -0.050:¹, where z is measured in inches. This strain corresponds to the total deformation in the rod given by Ag - 1.10in Note: The equation for e, was only chosen for simplicity, a real rod would also have increased strain at the support. Part A-Intial length Determine the initial length of the rod, L, measured before the kading is applied. Express the initial length in inches to three significant figures. View Available Hint(s) 4 T In 4