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1. Taking into account only the effect of normal stresses, determine the strain...
11.40 Determine the strain energy of the prismatic beam AB, taking into account the effect of...
11.40 Determine the strain energy of the prismatic beam AB, taking into account the effect of both normal and shearing stresses. Fig. P11.40
Review Part A -Normal strain in the x direction Learning Goal Determine the normal strain in the ...
Review Part A -Normal strain in the x direction Learning Goal Determine the normal strain in the xdirection, r To determine the elongations and contractions in a rectangular prismatic member that is subjected to stresses in the x and y directions. Express your answer in inches per inch to three significant figures View Available Hint(s) The member shown is subjected to a compressive stress in the x direction of σε 375 ksi and a compressive stress in the y direction...
the angle is 92 degrees The box undergoes distortion after loading. Determine the normal strain in...
the
angle is 92 degrees
The box undergoes distortion after loading. Determine the normal strain in sides AD, DB, BC, and AC and determine the change in diagonals AB and CD. Line DB remains horizontal. Angle D'AC is 92° 3 m m 41 m Smm S nm The box undergoes distortion after loading. Determine the normal strain in sides AD, DB, BC, and AC and determine the change in diagonals AB and CD. Line DB remains horizontal. Angle D'AC is...
A rectangle deforms into the position shown by the dashed lines. 1. Determine the average normal strain along AD. 2. De...
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...
Part C - Average normal strain in the differential element of material Determine the average normal...
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...
2. The box beam is subjected to the loading shown. Determine the principal stresses in the...
2. The box beam is subjected to the loading shown. Determine the principal stresses in the beam at point A, marked in red. 800 lb 1200 lb 5 in. . A 5 in.I A18 in. 8 in. 63 -3 ft- -5 ft 42.5 4-1-2.5 t-
write the solution freehand Back quiz2.docx Name ID Score 1. E-210GPa, (1) draw the internal force...
write the solution freehand
Back quiz2.docx Name ID Score 1. E-210GPa, (1) draw the internal force diagram of shaft AD; (2) calculate its stressi (3) determine the largest shearing stress; (4) calculate the total deformation of shaft AD; (5) calculate the displacement of Point C; (6) calculate the largest normal strain (30 points) 3 45KN 30NN 20KN mm" 2 400mm 300mm 300mm Berita Kery 15 2. Draw shearing force and moment diagram.(15 points) qa .9 ID с (Ctrl) - FB...
(a) Determine the maximum compressive and tensile normal stresses in the A-36 structural steel beam shown...
(a) Determine the maximum compressive and tensile normal
stresses in the A-36 structural steel beam shown and define their
locations (location along the beam and on the cross section). (b)
Determine the deflection of point B using the double
integration method. The height of the cross section shown (in the
y-direction) is 5 inches and width (in the
z-direction) is 10 inches, and the average thickness
throughout is 0.5 inches. (Use elastic properties for all
calculations)
ANSWER: (a) max tensile...
Question 2 10 pts A torque of magnitude T 12.0 kN.m is applied to the end...
Question 2 10 pts A torque of magnitude T 12.0 kN.m is applied to the end of a tank containing compressed air under pressure of 8 MPa. Knowing that the tank has a 176 mm inner diameter and a 13 mm wall thickness, draw a Mohr's circle for the stress state and determine the maximum normal stress in the tank. 15 pts Question 3 mm Esc 10 pts Question 5 A Taking into account only the effect of normal stress,...
1- For the beam shown below find: a) The maximum normal stresses due to bending b)...
1- For the beam shown below find: a) The maximum normal stresses due to bending b) The maximum shearing stress c) The maximum combined normal stress d) The stresses at C e) The shearing stress at D f The stresses at F The beam is made from homogenous, isotropic, linear elastic material Please present a very neat work. 20 kips 48 ft.kip 32 kips 2k/ft 4 B F 4' 8' 4' 16" 3" 4" D 12" C 6" F 3"...
11.40 Determine the strain energy of the prismatic beam AB, taking into account the effect of both normal and shearing stresses. Fig. P11.40
Review Part A -Normal strain in the x direction Learning Goal Determine the normal strain in the xdirection, r To determine the elongations and contractions in a rectangular prismatic member that is subjected to stresses in the x and y directions. Express your answer in inches per inch to three significant figures View Available Hint(s) The member shown is subjected to a compressive stress in the x direction of σε 375 ksi and a compressive stress in the y direction...
the
angle is 92 degrees
The box undergoes distortion after loading. Determine the normal strain in sides AD, DB, BC, and AC and determine the change in diagonals AB and CD. Line DB remains horizontal. Angle D'AC is 92° 3 m m 41 m Smm S nm The box undergoes distortion after loading. Determine the normal strain in sides AD, DB, BC, and AC and determine the change in diagonals AB and CD. Line DB remains horizontal. Angle D'AC is...
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...
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...
2. The box beam is subjected to the loading shown. Determine the principal stresses in the beam at point A, marked in red. 800 lb 1200 lb 5 in. . A 5 in.I A18 in. 8 in. 63 -3 ft- -5 ft 42.5 4-1-2.5 t-
write the solution freehand
Back quiz2.docx Name ID Score 1. E-210GPa, (1) draw the internal force diagram of shaft AD; (2) calculate its stressi (3) determine the largest shearing stress; (4) calculate the total deformation of shaft AD; (5) calculate the displacement of Point C; (6) calculate the largest normal strain (30 points) 3 45KN 30NN 20KN mm" 2 400mm 300mm 300mm Berita Kery 15 2. Draw shearing force and moment diagram.(15 points) qa .9 ID с (Ctrl) - FB...
(a) Determine the maximum compressive and tensile normal
stresses in the A-36 structural steel beam shown and define their
locations (location along the beam and on the cross section). (b)
Determine the deflection of point B using the double
integration method. The height of the cross section shown (in the
y-direction) is 5 inches and width (in the
z-direction) is 10 inches, and the average thickness
throughout is 0.5 inches. (Use elastic properties for all
calculations)
ANSWER: (a) max tensile...
Question 2 10 pts A torque of magnitude T 12.0 kN.m is applied to the end of a tank containing compressed air under pressure of 8 MPa. Knowing that the tank has a 176 mm inner diameter and a 13 mm wall thickness, draw a Mohr's circle for the stress state and determine the maximum normal stress in the tank. 15 pts Question 3 mm Esc 10 pts Question 5 A Taking into account only the effect of normal stress,...
1- For the beam shown below find: a) The maximum normal stresses due to bending b) The maximum shearing stress c) The maximum combined normal stress d) The stresses at C e) The shearing stress at D f The stresses at F The beam is made from homogenous, isotropic, linear elastic material Please present a very neat work. 20 kips 48 ft.kip 32 kips 2k/ft 4 B F 4' 8' 4' 16" 3" 4" D 12" C 6" F 3"...
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**86 at 40 not 88. please show how got Tr in calculations thank
you
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