Part A: Average normal strain along AC
Determine the average normal strain (ϵAC)avg along AC after the load has been applied.
Part B: Average shear strain at A
Determine the average shear strain γxy at A relative to the x and y axes.
Part C: Average shear strain at point C
Determine the average shear strain γxy at point C relative to the x and y axes after deformation.
Part A: Average normal strain along AC Determine the average normal strain (ϵAC)avg along AC after...
Part A) Determine the average normal strain along diagonal AC. Part B) determine the average shear strain at corner A. The rectangular plate is deformed into the shape shown by the dashed lines. Suppose that a =250 mm and b= 410 mm (Figure 1) Figure 1 of 1 6 mm h 2 2 mm mm 6 mm 2 mm B 3 mm
Determine the average shear strain at corner A and the average normal strain along diagonal AC for the figure shown below. (15 points) 4) 6 mm 400 mm 2 mm 2 mm 300 mm i 2 mm 400 mm3 mm houn in the figure? The bolt is 6
A rectangle deforms into the position shown by the dashed lines. 1. Determine the average normal strain along AD. 2. Determine the average normal strain along diagonal DB. 3. Determine the average normal strain along AB. Using the Law of Cosines, determine the shear str A. 3.5mm 4mm 3mm D' 1.5mm C B 1mm 3mm B A 400mm 300mm A rectangle deforms into the position shown by the dashed lines. 1. Determine the average normal strain along AD. 2. Determine...
Question 7-98 7-99 The piece of plastic is originally rectangular. Determine the shear strain gamma xy at corners D and C if the plastic distorts as shown by the dashed lines. The piece of plastic is originally rectangular. Determine the average normal strain that occurs along the diagonals AC and DB.
Part C - Average normal strain in the differential element of material Determine the average normal strain in the differential element of material. Express your answer to four significant figures. View Available Hint(s) IPO AQ 1 vec R o 2 ? Eaug in/in Submit Part B - Maximum in-plane shear strain and its orientation Determine the magnitude of the maximum in-plane shear strain, marame, and its orientation relative to the differential element of material. Express your answers to four significant...
a. Relationship between average normal stress and normal load perpendicular to a cross-sectional area b. Relationship between average shear stress and shear load in-plane with a cross-sectional area C. Average normal strain along a line on a body, given initial and final line lengths d. Hooke's Law applied to relationship between axial stress and strain e. Hooke's Law applied to relationship between torsional stress and strain f. Poisson's ratio between longitudinal and lateral strains g. Modulus of elasticity of steel...
7. The piece of plastic is originally rectangular. If the plastic distorts as shown by the dashed lines, determine a) The shear strain Vay at corner D. b) The average normal strain along diagonal DB. 6 mm 2 mm 4 mm 1 mm 200 mm 0.75 mm 450 mm 2 mm
The material distorts into the dashed position shown. Determine the average normal strains along the diagonals AD and CF.
2-11. Determine the shear strain yy at corners D and Cif the plastic distorts as shown by the dashed lines. y 12 mm 4 mm 8 mm B 3 mm 300 mm 12 mm x A 400 mm 5 mm Probs. 2-10/11
2.3 The block shown in Figure 3 deforms into the dashed position. a) Determine the average normal strains Ex and ey and the shear strain Yay at A b) Find the average normal strain along BE 0 mm 15 mm 50 mm 200 mm 50 mm A 150 mm Figure 3