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the following shaft (c/s is hollow circular re 10 cm and t fixed at end A...
2. Study the torsion of following shaft (shown below fixed at A, and with geometry and given loads) then: a) draw t...
2. Study the torsion of following shaft (shown below fixed at A, and with geometry and given loads) then: a) draw the diagram of internal torques; b) determine the maximum shear stress if the c/s is hollow circular with r.-10 cm and t 0.5 cm. c) determine the angle of twists фьс, and фс if G- 70 GPa. cross section 30 kN.m 90 kN.m 10 kNm A 2m B 3m C 1m D 40 paints
The shaft is hollow from A to B and solid from Bto C. The shaft has...
The shaft is hollow from A to B and solid from Bto C. The shaft has an outer diameter of 82 mm , and the thickness of the wall of the hollow segment is 10 mm (Figure 1) Part A Determine the maximum shear stress developed in the shaft. Express your answer to three significant figures and include the appropriate units Figure 1 of 1> Value Units Тmax Request Answer Submit В Return to Assignment Provide Feedback 4 kN.m 2...
The shaft is hollow from A to B and solid from B to C. The shaft...
The shaft is hollow from A to B and solid from B to C. The shaft has an outer diameter of 82 mm, and the thickness of the wall of the hollow segment is 10 mm. (Figure 1) Part A Determine the maximum shear stress developed in the shaft. Express your answer to three significant figures and include the appropriate units. Q: HÅR O 2 ? va xi • x•101 Tmax = Tmax = Value Units igure < 1 of...
160 mm 10 mm A hollow cylindrical steel shaft is 1.5 m long and has inner...
160 mm 10 mm A hollow cylindrical steel shaft is 1.5 m long and has inner and outer diameters respectively equal to 40 and 60 mm. The allowable shearing stress is 120 MPa with a modulus of rigidity (shear modulus) G-77 GPa, assuming fully elastic deformation. (a) What is the largest torque that can be applied to the shaft? (5 points) (b) What is the corresponding minimum value of the shearing stress in the shaft? (5 points) (c) What are...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of the shaft. Also, calculate the maximum deflection in the shaft. A is 40 in from point c. Show work. Steel: E=29,000 ksi and G=11,000 ksi. The shear stress in the shift is caused by torsion and transfer shear. 40 in 15 16 6 in. 8 in. Ro 50 lb 15 lb Ri B) Formulate the design optimization problem using the 5 steps given in...
please write some steps Fig.Q3 A driving shaft is made of steel whose modulus of rigidity...
please write some steps
Fig.Q3 A driving shaft is made of steel whose modulus of rigidity is 80 GN/m2. As shown in Fig.Q3(a), the shaft has a solid circular section and is subjected to a torque of 1400Nm applied, as indicated. 3. Calculate the angle of twist of one end relative to the other and the maximum shear stress which results. (a) As shown in Fig.Q3.(b), part of the shaft is then made hollow by boring a 35 mm diameter...
A hollow microtubule is held to a rigid support on one end and is twisted at the other end until ...
A hollow microtubule is held to a rigid support on one end and is twisted at the other end until it fails at 2 μm from the rigid end. This microtubule is 10μm in length with an outside diameter of 10nm and an inside diameter of 5nm. As depicted in the plot below, measurements at the free end show that torque increases with the angle of twist, until failure occurs at an angle of 25° with a torque of 5x102N-m....
The hollow thin-walled hollow section of aluminium alloy illustrated below is 1200 mm long. It has one free end and the...
The hollow thin-walled hollow section of aluminium alloy
illustrated below is 1200 mm long. It has one free end and the
other is built into a solid wall. At the free end, the following
loads are applied in the directions illustrated and distributed
evenly over the perimeter of the section:- A central, axial
compressive load, P = 10 kN; and A torque, T = 0.2 kN.m. Properties
of the aluminium alloy are given as E = 72 GPa and =...
5. A stepped, circular shaft is fixed at A and subjected to torques at B, D...
5. A stepped, circular shaft is fixed at A and subjected to torques at B, D and E in the direction:s shown. The segment AB is solid with a radius of 40 mm. The segment CE is hollow with an outside radius of 30 mm and inside radius of 20 mm. LAB 0.5 m, LBc-0.5 m, LcD-0.9 m, LD 0.6 m. 1I3 a) If To equals 6 N-m, TB - 14 N-m, and the magnitude of To is three times...
2. Study the torsion of following shaft (shown below fixed at A, and with geometry and given loads) then: a) draw the diagram of internal torques; b) determine the maximum shear stress if the c/s is hollow circular with r.-10 cm and t 0.5 cm. c) determine the angle of twists фьс, and фс if G- 70 GPa. cross section 30 kN.m 90 kN.m 10 kNm A 2m B 3m C 1m D 40 paints
The shaft is hollow from A to B and solid from Bto C. The shaft has an outer diameter of 82 mm , and the thickness of the wall of the hollow segment is 10 mm (Figure 1) Part A Determine the maximum shear stress developed in the shaft. Express your answer to three significant figures and include the appropriate units Figure 1 of 1> Value Units Тmax Request Answer Submit В Return to Assignment Provide Feedback 4 kN.m 2...
The shaft is hollow from A to B and solid from B to C. The shaft has an outer diameter of 82 mm, and the thickness of the wall of the hollow segment is 10 mm. (Figure 1) Part A Determine the maximum shear stress developed in the shaft. Express your answer to three significant figures and include the appropriate units. Q: HÅR O 2 ? va xi • x•101 Tmax = Tmax = Value Units igure < 1 of...
160 mm 10 mm A hollow cylindrical steel shaft is 1.5 m long and has inner and outer diameters respectively equal to 40 and 60 mm. The allowable shearing stress is 120 MPa with a modulus of rigidity (shear modulus) G-77 GPa, assuming fully elastic deformation. (a) What is the largest torque that can be applied to the shaft? (5 points) (b) What is the corresponding minimum value of the shearing stress in the shaft? (5 points) (c) What are...
Problem 1. A) Determine the maximum normal and shear stresses at the hollow circular cross-section of the shaft. Also, calculate the maximum deflection in the shaft. A is 40 in from point c. Show work. Steel: E=29,000 ksi and G=11,000 ksi. The shear stress in the shift is caused by torsion and transfer shear. 40 in 15 16 6 in. 8 in. Ro 50 lb 15 lb Ri B) Formulate the design optimization problem using the 5 steps given in...
please write some steps
Fig.Q3 A driving shaft is made of steel whose modulus of rigidity is 80 GN/m2. As shown in Fig.Q3(a), the shaft has a solid circular section and is subjected to a torque of 1400Nm applied, as indicated. 3. Calculate the angle of twist of one end relative to the other and the maximum shear stress which results. (a) As shown in Fig.Q3.(b), part of the shaft is then made hollow by boring a 35 mm diameter...
A hollow microtubule is held to a rigid support on one end and is twisted at the other end until it fails at 2 μm from the rigid end. This microtubule is 10μm in length with an outside diameter of 10nm and an inside diameter of 5nm. As depicted in the plot below, measurements at the free end show that torque increases with the angle of twist, until failure occurs at an angle of 25° with a torque of 5x102N-m....
The hollow thin-walled hollow section of aluminium alloy
illustrated below is 1200 mm long. It has one free end and the
other is built into a solid wall. At the free end, the following
loads are applied in the directions illustrated and distributed
evenly over the perimeter of the section:- A central, axial
compressive load, P = 10 kN; and A torque, T = 0.2 kN.m. Properties
of the aluminium alloy are given as E = 72 GPa and =...
5. A stepped, circular shaft is fixed at A and subjected to torques at B, D and E in the direction:s shown. The segment AB is solid with a radius of 40 mm. The segment CE is hollow with an outside radius of 30 mm and inside radius of 20 mm. LAB 0.5 m, LBc-0.5 m, LcD-0.9 m, LD 0.6 m. 1I3 a) If To equals 6 N-m, TB - 14 N-m, and the magnitude of To is three times...
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