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. (20 points) Using Castigliano's theorem, determine the deflection of point B in the direction o...
Problem 04.077- Determine the deflection of an angled bar using Castigliano's theorem Using Castigliano's theorem, determine...
Problem 04.077- Determine the deflection of an angled bar using Castigliano's theorem Using Castigliano's theorem, determine the deflection of point B in the direction of the force F= 25 lbf for the steel bar shown in the figure where a = 15 in, b= 6 in, and the diameter is d= 0.625 in. The deflection of point B in the direction of force is
6. The cantilevered handle in the figure is made from mild steel that has been welded at the joints. For Fy-200 lbf, Fx F0, determine the vertical deflection (along the y axis) at the tip. (15 po...
6. The cantilevered handle in the figure is made from mild steel that has been welded at the joints. For Fy-200 lbf, Fx F0, determine the vertical deflection (along the y axis) at the tip. (15 points) -nia in 5เล่
6. The cantilevered handle in the figure is made from mild steel that has been welded at the joints. For Fy-200 lbf, Fx F0, determine the vertical deflection (along the y axis) at the tip. (15 points) -nia in 5เล่
Solve Using Castigliano's Theorem Considering that Castigloiano's is applicable to angular deflection as well. Determine the...
Solve Using Castigliano's
Theorem Considering that Castigloiano's is applicable to angular
deflection as well.
Determine the deflection at the load P for the three-sided bracket shown in the Figure below. The bracket has the same material and cross section throughout. With solid steel rods of 56 mm diameter, using E = 200 GPa, G= 77 GPa, a = 300 mm, b = 800 mm, and P=5.5 kN. Р 3 , - Иys 2* да ф = 0 = 2 (....
PROBLEM #1: (50 points) Using Castigliano's method, determine the vertical deflection of the free end, point...
PROBLEM #1: (50 points) Using Castigliano's method, determine the vertical deflection of the free end, point C, due to the vertical force F applied at point B of the step cantilever shaft shown in the figure. The second area moments for sections AB and BC are 1 and 21, respectively. 1/2 1/2
20 Points 3) The bar is loaded with a force 15,000 N. Determine the safety factor...
20 Points 3) The bar is loaded with a force 15,000 N. Determine the safety factor for AISI 1050, annealed steel S u-636.0 MPa (92.3 ksi). Sy-365.4 MPa 2.5 na F 15,000 N 100 mm 15 mm radius
Question 1 (25 points) Determine the horizontal displacement of point C. Assume the members are pin...
Question 1 (25 points) Determine the horizontal displacement of point C. Assume the members are pin connected at their ends. Take A = 400 mm? and E = 200 GPa for each member. 5 kN C 2 m 1.5 m 10 kN Member Foron N: Member forces due to external force P and external applied forces are shown on the figurt. Castigliano's Second Theorem : Applying Eq. 9-27, we have
YOUR CALCULATIONS NO PARTIAL POINTS WITH OUT CALCULATIO NS 3. (20 pts BONUS). A f 20...
YOUR CALCULATIONS NO PARTIAL POINTS WITH OUT CALCULATIO NS 3. (20 pts BONUS). A f 20 mm and hawuS) A force of 100.000 N is orce of 100,000 N is applie e bar will plastically deform and whether the bar will experience necking d to an iron bar with a cross-sectional area of 10 mm x an in ield strength of 400 MPA s and a tensile strength of 480 MPa. Determine whether
Question 2: [20 Points) The Figure below shows a portion of a pump that is gear...
Question 2: [20 Points) The Figure below shows a portion of a pump that is gear driven at uniform load and speed. The shaft is supported by bearings mounted in the pump housing. The shaft is made of steel, its yield strength is 800 MPa and its ultimate tensile strength is 1000 MPa. The surface of the shaft is machined. Due to the fillet at A, the fatigue bending stress concentration factor is 2.0, the fatigue torsion stress concentration factor...
do fast Question 2 20 marks e rotating solid steel shaf is simply supported by bearings at poithe force F by a disc...
do fast
Question 2 20 marks e rotating solid steel shaf is simply supported by bearings at poithe force F by a disc (not shown) which meshes with the dise at disc acts vertically as shown in figure where F = 2 kN. The shan A of T 400 Nm. The shaft is machined from steel. a. Using a factor of safety of 3, shaft dia the distortion energy theory and modified-Goodman. bearing shoulders for b. Draw a free hand...
The rotating solid steel shaft is simply supported by bearings at points B and C and...
The rotating solid steel shaft is simply supported by bearings at points B and C and is driven by a gear (not shown) which meshes with the spur gear at D, which has a 150-mm pitch diameter. The force F from the drive gear acts at a pressure angle of 20°. The shaft transmits a torque to point A of T 400 N m. The shaft is machined from steel with S, 420 MPa and Su 560 MPa. Using a...
Problem 04.077- Determine the deflection of an angled bar using Castigliano's theorem Using Castigliano's theorem, determine the deflection of point B in the direction of the force F= 25 lbf for the steel bar shown in the figure where a = 15 in, b= 6 in, and the diameter is d= 0.625 in. The deflection of point B in the direction of force is
6. The cantilevered handle in the figure is made from mild steel that has been welded at the joints. For Fy-200 lbf, Fx F0, determine the vertical deflection (along the y axis) at the tip. (15 points) -nia in 5เล่
6. The cantilevered handle in the figure is made from mild steel that has been welded at the joints. For Fy-200 lbf, Fx F0, determine the vertical deflection (along the y axis) at the tip. (15 points) -nia in 5เล่
Solve Using Castigliano's
Theorem Considering that Castigloiano's is applicable to angular
deflection as well.
Determine the deflection at the load P for the three-sided bracket shown in the Figure below. The bracket has the same material and cross section throughout. With solid steel rods of 56 mm diameter, using E = 200 GPa, G= 77 GPa, a = 300 mm, b = 800 mm, and P=5.5 kN. Р 3 , - Иys 2* да ф = 0 = 2 (....
PROBLEM #1: (50 points) Using Castigliano's method, determine the vertical deflection of the free end, point C, due to the vertical force F applied at point B of the step cantilever shaft shown in the figure. The second area moments for sections AB and BC are 1 and 21, respectively. 1/2 1/2
20 Points 3) The bar is loaded with a force 15,000 N. Determine the safety factor for AISI 1050, annealed steel S u-636.0 MPa (92.3 ksi). Sy-365.4 MPa 2.5 na F 15,000 N 100 mm 15 mm radius
Question 1 (25 points) Determine the horizontal displacement of point C. Assume the members are pin connected at their ends. Take A = 400 mm? and E = 200 GPa for each member. 5 kN C 2 m 1.5 m 10 kN Member Foron N: Member forces due to external force P and external applied forces are shown on the figurt. Castigliano's Second Theorem : Applying Eq. 9-27, we have
YOUR CALCULATIONS NO PARTIAL POINTS WITH OUT CALCULATIO NS 3. (20 pts BONUS). A f 20 mm and hawuS) A force of 100.000 N is orce of 100,000 N is applie e bar will plastically deform and whether the bar will experience necking d to an iron bar with a cross-sectional area of 10 mm x an in ield strength of 400 MPA s and a tensile strength of 480 MPa. Determine whether
Question 2: [20 Points) The Figure below shows a portion of a pump that is gear driven at uniform load and speed. The shaft is supported by bearings mounted in the pump housing. The shaft is made of steel, its yield strength is 800 MPa and its ultimate tensile strength is 1000 MPa. The surface of the shaft is machined. Due to the fillet at A, the fatigue bending stress concentration factor is 2.0, the fatigue torsion stress concentration factor...
do fast
Question 2 20 marks e rotating solid steel shaf is simply supported by bearings at poithe force F by a disc (not shown) which meshes with the dise at disc acts vertically as shown in figure where F = 2 kN. The shan A of T 400 Nm. The shaft is machined from steel. a. Using a factor of safety of 3, shaft dia the distortion energy theory and modified-Goodman. bearing shoulders for b. Draw a free hand...
The rotating solid steel shaft is simply supported by bearings at points B and C and is driven by a gear (not shown) which meshes with the spur gear at D, which has a 150-mm pitch diameter. The force F from the drive gear acts at a pressure angle of 20°. The shaft transmits a torque to point A of T 400 N m. The shaft is machined from steel with S, 420 MPa and Su 560 MPa. Using a...
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