A stepped shaft of diameter 22mm is subjected to a bending load of 50 N-m as shown below in the figure, if the maximum and the nominal stresses induced in the shaft due to bending are 27 MPa and 19 MPa respectively. The value of the stress concentration factor is .
Q: OD aluminum steel A composite beam is a built-up section made of aluminium and reinforced with a…
A:
Q: The shaft of the gearbox, shown in the figure, rotates with an angular speed of w=73 rad/s and…
A: Key : Key is a temporary fastening which is inserted between shaft and its assembly (pulley, gear,…
Q: A wire of circular cross-section ofdiameter 1.0 mm is bent into a circular arc of radius 1.0 m by…
A: Given, Diameter of wire = d = 1 mm Circular arc radius = R = 1 m = 1000 mm Young's modulus = E = 100…
Q: A wood beam reinforced by an aluminumchannel section is shown in the figure. The beam hasa cross…
A: According to the problem, n=EaEw =6 Here, n is the ratio of Young's Modulus, Ea is the Young's…
Q: The beam cross section shown in the figure below is subjected to a shear force V = 250 kN.…
A:
Q: (6) For the composite beam shown in the figure, which is bended about a horizontal axis by a couple…
A:
Q: Since the bending safety stress em = 10 MPa, shear safety stress em = 600 kPa of the rectangular…
A:
Q: A beam has a bending moment of 3.5 kN-m applied to a section with a hollow circular cross-section of…
A:
Q: A beam has a bending moment of 4 kN-m applied to a section with a hollow circular cross-section of…
A: Given data: The maximum bending moment is M = 4 kN-m. The external diameter of the beam is D = 3.7…
Q: A hollow shaft (k = 0.4) is subjected to a bending load of 500 N, and a torsion moment of 275000…
A:
Q: What the maximum stresses in the stepped shaft composite of two materials steel and Aluminum that…
A: Given Data torque=300 N.m Gs=82 GPa Gal=27 GPa Polar moment of inertia,
Q: A beam has a bending moment of 4 kN-m applied to a section with a hollow circular cross-section of…
A:
Q: A shaft is subjected to a bending load of 50 kN, and a torsion moment of 275000 N.mm as shown in the…
A:
Q: The internal shear force at a certain section of a steel beam is V = 8.1 kN. The beam cross-section…
A:
Q: A wire of circular cross-section of diameter 1.0 mm is bent into a circular arc of radius 1.0 m by…
A:
Q: A beam of channel section (as shown in the figure) is subjected to a shear force 50 kN. Draw the…
A: S=50 KN Now moment of inertia passing through N.AI=112×b×h3I=112×.06×.13=5×10-6 m4
Q: A simply supported beam AB = 10 m has a hollow rectangular cross-section with 17 cm as width, 28 cm…
A: Note :- you have posted multiple questions on single window. As per the guidelines I am able to…
Q: A 3.0 m long brass pipe is subjected to the weight 'P' of 1000 kg as shown in figure below.…
A: Given, Eccentric load, P=10000NEccentric distance, e=5mmLength of pipe, L=3mExternal diameter of…
Q: rectangular bar having width twice the depth is used as a beam. The beam is made of mild steel…
A:
Q: The beam with triangular section L = 180 cm long shown in the figure is forced to bend with a…
A: Given: Maximum stress is 3600 daN/cm2. q=4.5 daN/cm Length of the beam is 180 cm. b=6 cm Factor of…
Q: For the system shown in the figure, find the maximum internal shear force in kN. Hint: you will need…
A:
Q: A steel wide-flange beam has the dimensions as shown in the figure below. If it is subjected to…
A: According to the given information we have shear force of v = 86 Kn firstly for the moment of…
Q: Since the bending safety stress Bem = 10 MPa and shear safety stress Bem = 600 kPa of the…
A: Given, Safe bending stress ,σb =10 MPa Safe shear stress , ζs=600 KPa
Q: N for Newton, m for meter, mm for millimeter, N/(mm^2) for Stress, mm^2 or m^2 for Area, mm^4…
A: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question and…
Q: A stepped shaft of diameter 22mm is subjected to a bending load of 50 N-m as shown below in the…
A:
Q: 40 N.m Da 0.5 m 280 N.m 150 N.m 2 0.3 m 0.4 m
A:
Q: A beam has a bending moment of 2 kN-m applied to a section with a hollow circular cross-section of…
A:
Q: The maximum bending stress at distance 0.5 m from the built-in right hand end in the structural beam…
A:
Q: A beam has a bending moment of 4.5 kN-m applied to a section with a hollow circular cross-section of…
A: Since you have asked a question with multiple parts in a single request, we would be answering only…
Q: A beam has a bending moment of 3.5 kN-m applied to a section with a hollow circular cross-section of…
A: Given The bending moment on the beam is M=3.5 kN·m. The external diameter of circular beam is D=3.5…
Q: A fiberglass pipe is lifted by a sling, as shown in the figure. The outerdiameter of the pipe is 6,0…
A: Given data as per question Outer diameter of pipe =6 in thickness=0.25 in weight density =0.053…
Q: A simply supported beam AB = 9 m has a hollow rectangular cross-section with 11 cm as width, 29 cm…
A: Note :- You have posted multiple questions on single window. As per the guidelines I am able to…
Q: 25. A fiberglass pipe is lifted by a sling, as shown in the figure. The outer diameter of the pipe…
A: Given data as per questionLength of pipe =10 ms=4 md2=100 mmd1=100−12=88 mmweight density =1500…
Q: Let's consider a solid circular rod having a diameter D = 30 mm subjected to a triangular…
A: Given: The diameter of rod, D = 30 mm The elastic modulus, E = 4 GPa The intensity of load…
Q: A simply supported beam AB = 11 m has a hollow rectangular cross-section with 11 cm as width, 28 cm…
A: Note:- As per the Bartleby guidelines, only three subparts are allowed to answer so please submit…
Q: A simply supported beam AB = 9 m has a hollow rectangular cross-section with 13 cm as width, 20 cm…
A: Note :- you have posted multiple questions on single window. As per the guidelines I am able to…
Q: A cast iron pulley transmits 20 kW at 300 r.p.m. The diameter of the pulley is 550 mm and has four…
A: Given data in this problem is ⇒Power that pulley can transmits(P) =20 kW⇒Speed(N) = 300 rpm⇒Diameter…
Q: A railroad tie (or sleepe1) is subjected to two rail loads, each of magnitude P=175 kN, acting as…
A: For the given railroad tie, Calculate the value of q, q×L+2a=2Pq=2PL+2aq=2×1751500+2×500q=140 kN,…
Q: A l-m-long rectangular beam is attached to a 2-m-long circular shaft and loaded as shown in the…
A: According to the given information, a rectangular beam is 1 m, a circular shaft is 2 m, and 600 N…
Q: A simply supported beam AB = 11 m has a hollow rectangular cross-section with 16 cm as width, 28 cm…
A: Given: The simply supported beam with the span of 11 m. Beam is subjected to UDL of 7 N/m and…
Q: For the figure shown below. Find the maximum allowable value of P if the bending stresses are not…
A:
Q: A 10 cm diameter solid aluminum post is subjected to a horizontal force of V-7 kN and a concentrated…
A:
Q: Two thin-walled aluminum tubes will be used to support a torque and they have same cross- section…
A: Introduction: When a shaft is torqued or twisted, shearing tension is created in the shaft. The…
Q: 6 kN/m Since the bending safety stress *em = 10 MPa, shear safety stress em = 600 kPa of the…
A: Draw a diagram for the beam. Here, RA and RC are the support reactions as shown in the figure.…
Q: A simply supported beam AB = 11 m has a hollow rectangular cross-section with 13 cm as width, 22 cm…
A: Dear student as per the policy i can only solve only 3 subparts , here i solved first three one…
Q: A beam has a bending moment of 3.5 kN-m applied to a section with a hollow circular cross-section of…
A: Given data: The bending moment is, M=3.5 kN·m. The external diameter is, do=3.6 cm. The internal…
Q: A beam of circular cross-section has a length of 5m and is simply supported at its ends. It is…
A: Given data: The length of the beam is L=5 m The maximum bending stress is σb=13 MPa The maximum…
Q: aluminum steel A composite beam is a built-up section made of aluminium and reinforced with a steel…
A:
Q: beam section h is at least how much is the height of the beam section in order not to exceed the…
A:
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- A thin-walled aluminum tube of rectangular cross section (sec fig me) has a centerline dimensions b = 6.0 in. and b = 4.0 in. The wall thickness t is constant and equal to 0.25 in. Determine the shear stress in the tube due to a torque T = 15 kip-in. Determine the angle of twist (in degrees) if the length L of the tube is 50 in. and the shear modulus G is 4.0 x 106 psi.A thin-walled rectangular tube has uniform thickness t and dimensions a x b to the median line of the cross section (see figure). How does the shear stress in the tube vary with the ratio = a/b if the total length Lmof the median line of the cross section and the torque T remain constant? From your results, show that the shear stress is smallest when the tube is square (ß = 1).A stepped shaft ABC consisting of two solid, circular segments is subjected to uniformly distributed torque t1acting aver segment 1 and concentrated torque t2applied at C, as shown in the figure. Segment 1 of the shaft has a diameter of d1= 57 mm and length of L1= 0.75 m; segment 2 has a diameter d2— 44 mm and length L2= 0.5 m. Torque intensity /,"= 3100 N . m/m and T2= 1100 N. m. (a) Find reaction torque TAat support A. (b) Find the internal torque T(x) at two locations: .x = L1/2 and at .x = L1+ L2/2. Show these internal torques on properly drawn free-body diagrams.
- A line shaft rotating at 200 r.p.m. is to transmit 20 kW. The shaft may be assumed to be made of mild steel with an allowable shear stress of 42 MPa. Determine the diameter of the shaft, neglecting the bending moment on the shaftA solid 22-mm-diameter bronze shaft transmits 13.4 kW at 17 Hz to the propeller of a small sailboat. Determine the maximum shear stress τmax produced in the shaft.Consider a tube having a rectangular cross-section as shown below. The tube is subject to two twisting moments of 70 N - m . Determine the average shear stress developed at point A. The tube is fixed at the other end. a) 1.75 MPa b) -1.65 MPa c) 4.086 MPa d) 2.095 MPa
- Consider a tube having a rectangular cross-section as shown below. The tube is subject to two twisting moments of 70 N - m . Determine the average shear stress developed at point A. The tube is fixed at the other end. a) 1.75 MPa b) -1.65 MPa c) 4.086 MPa d) 2.095 MPa If your doing it fast, I will rate you...A solid shaft is transmitting 1 MW at 240 r.p.m. Determine the diameter of the shaft if the maximum torque transmitted exceeds the mean torque by 20%. Take the maximum allowable shear stress as 60 MPa.If Poisson's ratio of a material is 0.5, then the elastic modulus for the material is a)three times its shear modulus b)four times its shear modulus c)equal to its shear modulus d)indeterminate
- A generator driven by a wind turbine is required to deliver 5 MW of power at the generator terminals. The turbine is a two-blade propeller rotating about a horizontal axis and the maximum permitted shear stress of the turbine shaft is 55x106 N/m2 The rotor is designed to operate at a rotational speed of 45 revolution per seconds .The stage efficiencies are Cp 0.32, ngb = 0.90, ng = 0.92. %3D . (i) If the turbine delivers its rated power at a wind average speed of 22 m/s, calculate the corresponding diameter of the propeller and its TSR, assuming a typical value for the overall efficiency. The air density may be assumed to have a value 1.29 kg/m³. (ii) Calculate the torque on the turbine shaft.A ship's shaft operates at 150 rpm and resists a maximum shear stress of 50 MPa. The shaft has an outer diameter of 45 cm and an inner diameter of 30 cm, as shown in the figure. Determine: What is the maximum power that can be transmitted without exceeding the allowable shear stress? If the rotational speed of the shaft is limited to half, but the same shaft power is maintained, what happens to the shear stress in the shaft?The internal loadings at a critical section along the steel drive shaft of a ship are calculated to be a torque of 2300 lb # ft, a bending moment of 1500 lb # ft, and an axial thrust of 2500 lb. If the yield points for tension and shear are sY = 100 ksi and tY = 50 ksi, respectively, determine the required diameter ofthe shaft using the maximum shear stress theory.