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![sigma A--300*10A3*1000/[20*803)/12]*40 sigma A--14062.5 N/mmA2 (C) 20 sigma B-0 stress at point A,B and C 200 kN point C (ve)](http://img.homeworklib.com/images/f2f0fcb8-5d33-4990-9f09-2a71c4a2df09.png?x-oss-process=image/resize,w_560)
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Find the state of stress at points A, B, and Clocated at the fixed support 1000 40 40 20 100 KN 1...
Composition (at% Ag) 0 20 40 60 80 100 2200 1200 A 2000 -Liquidus 1000 Liquid...
Composition (at% Ag) 0 20 40 60 80 100 2200 1200 A 2000 -Liquidus 1000 Liquid 1800 F Solidus a + L 1600 a 800 779°C (TE) BUL B E G 1400 8.0 (C&E) Temperature (°C) 71.9 (CE) B 91.2 (CBE) Temperature (°F) 1200 600 1000 Solvus a + B 800 400 с 600 H 200 400 100 0 20 40 60 80 (Cu) Composition (wt% Ag) (Ag) c) Assume slow cooling and that equilibrium conditions exist for the alloy...
Review Learning Goal: To use the superposition principle to find the state of stress on a...
Review Learning Goal: To use the superposition principle to find the state of stress on a beam under multiple loadings The beam shown below is subjected to a horizontal force P via the rope wound around the pulley. The state of stress at point A is to be determined. Part A - Support Reactions and Internal Loading Determine the support reactions Cy and Cz and the internal normal force, shear force, and moment on the cross-section containing point A. Express...
(40 points) For the shown cantilever a. Find the reactions. (5 points) b. Draw the shear...
(40 points) For the shown cantilever a. Find the reactions. (5 points) b. Draw the shear diagram. (5 points) c. Draw the moment diagram.(10 2 KN 250 mm-.--300 mm 4 KN 250 mm points) Determine the maximum tensile and compressive bending stresses (10 points) 20 mm d. 70 mm e. Determine the shear stress at point B 20 mm 50 mm on the web of the cantilevered strut at section a-a. (10 points)
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and S 200 KN acting at th...
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and S 200 KN acting at the free end of the cantilever beam. Determine (a) the maximum tensile and compressive stress of the bar if the depth, d of the rectangular bar is 70 mm, and the maximum torsional stress 200 Kw b-40 mm a 20 mm 20 mm
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and...
Question 6 3 points Save Answ The boom shown below has negligible weight, but it has sufficient strength to support the 1000 kN load without buckling, What is most nearly the tension in the suppo...
Question 6 3 points Save Answ The boom shown below has negligible weight, but it has sufficient strength to support the 1000 kN load without buckling, What is most nearly the tension in the supporting cable between points A and B? 1000 kN 580 kN 430 kN 200 kN 870 kN
Question 6 3 points Save Answ The boom shown below has negligible weight, but it has sufficient strength to support the 1000 kN load without buckling, What is most...
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and...
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and S 200 KN acting at the free end of the cantilever beam. Determine (a) the maximum tensile and compressive stress of the bar if the depth, d of the rectangular bar is 70 mm, and the maximum torsional stress 200 Kw b-40 mm a 20 mm 20 mm
Problem 2: The state of stress at a point is given by 80 20 40 [a] 20 60 10|MPa 40 10 20 (a) Dete...
Please include all parts!
Problem 2: The state of stress at a point is given by 80 20 40 [a] 20 60 10|MPa 40 10 20 (a) Determine the strains using Young's modulus of 100 GPa and Poisson's ratio of 0.25 (b) Compute the strain energy density using these stresses and strains (c) Calculate the principal stresses and principal stress directions (can use the MATLAB command) (d) Write the strains calculated in (a) above in the form of strain matrixel...
12 kN 3 kN/m Fixed support B A Roller support 3 m m A beam is...
12 kN 3 kN/m Fixed support B A Roller support 3 m m A beam is fixed at A and supported by a roller at B. The beam has E = 100 GPa and I 1.0 x 10-5 m4. For the loading shown, complete the following: 1. Calculate the magnitude and direction of all reactions at A. 2. Calculate the magnitude and direction of all reactions at B. 3. Calculate the magnitude and direction of the rotation at B.
Learning Goal: To use the superposition principle to find the state of stress on a beam...
Learning Goal: To use the superposition principle to find the state of stress on a beam under multiple loadings. The beam shown below is subjected to a horizontal force P via the rope wound around the pulley. The state of stress at point A is to be determined. P 1d4 di dz d2 20 mm T 100 mm 200 mm 15 mm 20 mm 150 mm The dimensions are di = 1.85 m, d2 = 0.5 m, dz = 0.9...
If the beam is subjected to a moment of M = 100 kn-m, determine the bending stress at points A, B, and C.
If the beam is subjected to a moment of M = 100 kn-m, determine the bending stress at points A, B, and C. Sketch the bending stress distribution on the cross Section. If the beam is made of a material having an allowable tensile and compressive stress of σallow(T) = 125 MPa and σallow(C) = 150 MPa, respectively, determine the maximum moment M that can be applied to the beam.
Composition (at% Ag) 0 20 40 60 80 100 2200 1200 A 2000 -Liquidus 1000 Liquid 1800 F Solidus a + L 1600 a 800 779°C (TE) BUL B E G 1400 8.0 (C&E) Temperature (°C) 71.9 (CE) B 91.2 (CBE) Temperature (°F) 1200 600 1000 Solvus a + B 800 400 с 600 H 200 400 100 0 20 40 60 80 (Cu) Composition (wt% Ag) (Ag) c) Assume slow cooling and that equilibrium conditions exist for the alloy...
Review Learning Goal: To use the superposition principle to find the state of stress on a beam under multiple loadings The beam shown below is subjected to a horizontal force P via the rope wound around the pulley. The state of stress at point A is to be determined. Part A - Support Reactions and Internal Loading Determine the support reactions Cy and Cz and the internal normal force, shear force, and moment on the cross-section containing point A. Express...
(40 points) For the shown cantilever a. Find the reactions. (5 points) b. Draw the shear diagram. (5 points) c. Draw the moment diagram.(10 2 KN 250 mm-.--300 mm 4 KN 250 mm points) Determine the maximum tensile and compressive bending stresses (10 points) 20 mm d. 70 mm e. Determine the shear stress at point B 20 mm 50 mm on the web of the cantilevered strut at section a-a. (10 points)
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and S 200 KN acting at the free end of the cantilever beam. Determine (a) the maximum tensile and compressive stress of the bar if the depth, d of the rectangular bar is 70 mm, and the maximum torsional stress 200 Kw b-40 mm a 20 mm 20 mm
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and...
Question 6 3 points Save Answ The boom shown below has negligible weight, but it has sufficient strength to support the 1000 kN load without buckling, What is most nearly the tension in the supporting cable between points A and B? 1000 kN 580 kN 430 kN 200 kN 870 kN
Question 6 3 points Save Answ The boom shown below has negligible weight, but it has sufficient strength to support the 1000 kN load without buckling, What is most...
The beam shown below is loaded with three forces, P - 100 KN, Q-200 KN, and S 200 KN acting at the free end of the cantilever beam. Determine (a) the maximum tensile and compressive stress of the bar if the depth, d of the rectangular bar is 70 mm, and the maximum torsional stress 200 Kw b-40 mm a 20 mm 20 mm
Please include all parts!
Problem 2: The state of stress at a point is given by 80 20 40 [a] 20 60 10|MPa 40 10 20 (a) Determine the strains using Young's modulus of 100 GPa and Poisson's ratio of 0.25 (b) Compute the strain energy density using these stresses and strains (c) Calculate the principal stresses and principal stress directions (can use the MATLAB command) (d) Write the strains calculated in (a) above in the form of strain matrixel...
12 kN 3 kN/m Fixed support B A Roller support 3 m m A beam is fixed at A and supported by a roller at B. The beam has E = 100 GPa and I 1.0 x 10-5 m4. For the loading shown, complete the following: 1. Calculate the magnitude and direction of all reactions at A. 2. Calculate the magnitude and direction of all reactions at B. 3. Calculate the magnitude and direction of the rotation at B.
Learning Goal: To use the superposition principle to find the state of stress on a beam under multiple loadings. The beam shown below is subjected to a horizontal force P via the rope wound around the pulley. The state of stress at point A is to be determined. P 1d4 di dz d2 20 mm T 100 mm 200 mm 15 mm 20 mm 150 mm The dimensions are di = 1.85 m, d2 = 0.5 m, dz = 0.9...
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