Find the stresses at points A andB on the plate shown in the figure.
Q: Q2) For the problem shown in the figure, - Find the axial displacement at the end B - Determine the…
A: for solution refer below images.
Q: he stress condition given in the figure, find the approximation o
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Q: The system in the figure consists of AB with a wall thickness of 5 mm and an outer diameter of dAB =…
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Q: 3. At a point in a strained material, the principal stresses are 100 MPa and 50 MPa both tensile.…
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Q: 450 kN and 100 kN forces were applied to the recessed beam shown in the figure. Find the stresses at…
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Q: The hollow drill pipe for an oil well (see figure)is 6.2 in. in outer diameter and 0.75 in. in…
A: Given Outer diameter = 6.2 in Thickness = 0.75 in Weight = 62 kips Torque = 185 kip-in To find…
Q: Q.3) For the shaft consist of two parts shown in figure. If shaft (1) has outside diameter doutl =…
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Q: A 100mm diameter steel shaft is loaded as indicated in the figure. Determine the angle of twist of…
A: find angle of twist of pulley D with respect to A and shear stress in each section.
Q: The cantilevered tube shown in the following figure is to be made of 2014 aluminum alloy and is…
A: The tube is subjected to axial loading, bending, and torsion simultaneously, thus there will be…
Q: The principal stresses at a point are 80 mpa, 30 mpa, and -40 mpa. What will be maximum shear stress…
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Q: shear stress in t
A: Given data sigma x = -100 MPa sigma y = 0 sigma xy = 0 required normal stress at 300 shear stress…
Q: - : The forces as given below are applied as shown in the figure. F:=10 kN, F;=5 kN and F3=3 kN. The…
A: Given F1 = 10 kN F2 = 5 kN F3 = 3 kN To find Stress at point D Shear stress Principal stresses
Q: The stress at a certain point is as shown in the figure. If the maximum in-plane shear stress…
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Q: 2. The hollow cylinder is fixed at the wall and pressurized at p = 2,000 Pa. Its outer diameter (OD)…
A: For the given cylinder the following are the reasons for creating stress at point A: compressive…
Q: 8 ksi 4 ksi 12 ksi
A: From the given figrue, σx = -12 ksi σy = -8 ksi τxy = 4 ksi
Q: Find the resultant shear stress at point A & C for the weldment shown in the figure. Leg size of the…
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Q: C ):- Draw the Mohr's Circle of the stress element shown in figure. Find:- 1) principle stresses. 2)…
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Q: Q2/ A steel bar shown in figure consists of two segments having diameter of AB= 28 mm and BD= 40 mm.…
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Q: Find the maximum shear stress for the stress case given in the figure.
A: Given Data The stress acting in x direction is: σx=100 MPa The stress acting in y direction is:…
Q: Two forces, 100 kN and 200 kN, act on the rectangular column in the figure. Find the stresses at A…
A: The cross-section of the rectangular column is shown below: considering dimensions in mm
Q: A thick-walled cylinder with internal and external radii 86 mm and 166 mm respectively, is subject…
A: we have to determine the radial and hoop stress
Q: Given a stress element in the figure, find the planes in which the normal stresses are equal in…
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Q: The steel bar in the figure has a diameter of 60 mm. As the shaft is loaded with the CDE rigid arm…
A: Given: Diameter of the steel bar is 60 mm. The loaded shaft is shown below:
Q: Qr) Find the stress distribution at the section ABCD for the block shown in the figure. Sketch the…
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Q: The stresses at a point on the surface of a generator shaft are ox = -50 MPa, ơy = 30 MPa and Txy =…
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Q: The principal stresses at a point in a solid are o,=56Mpa, o,=35Mpa, and o3=14Mpa. Using Mohr's…
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Q: For the figure shown below. Calculate the increase in vertical stresses (Ac) at point A at depth of…
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Q: Find the stresses at points A and B on the plate shown in the figure.
A: The normal stress on the point A can be determined as,
Q: A torque and two forces seen in the figure are applied. the diameter is 65mm. Determine the…
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Q: ABCD rigid rod is supported as shown in the figure. 40 degrees increase in temperature in the case…
A: Given data, Increase in temperature, ∆T = 40° α1 = Thermal expansion of rod 1 = 16.9×10-6/°C α2 =…
Q: The Mohr's circle for a point near the base of a traffic pole is shown below. the center of the…
A: Consider the diagram shown below for the given Mohr’s circle.
Q: The foundation bolt is shown in the below figure a force F = 300 N. The bolt material is wire of…
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Q: Find the normal and shear stresses at points H and K, since F= 15 kN in the loading condition shown…
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Q: uniformly distributed stresses acting on the side faces plate are b = 10 in. t = 0.75 in.., E =…
A: Given data Width (b) = 690mm = 69*10-³m Thickness (t) = 40mm = 40*10-³m E = 41 Gpa = 41*10⁹ V =…
Q: A circular bracket with a diameter of 100 mm is fixed to a wall as shown in the figure. Determine…
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Q: * The state of plane stress at a point is represented on the element shown in the figure. The…
A: GIven σx=10MPaσy=30Mpaτ=20MPa
Q: A strain element is given in the figure. Find the planes in which the normal stresses are equal in…
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Q: By using Mohr's circle on the element subjected to stresses in the figure; a) Find the principal…
A: GIVEN :-σx=-210 MPaσy=950 MPaζxy=70 MPaSOLUTION :-finding the center of Mohr's circle,Center:…
Q: A circular bracket with a diameter of 100 mm is fixed to a wall as shown in the figure below.…
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Q: A circular bracket with a diameter of 100 mm is fixed to a wall as shown in the figure. Determine…
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Q: Problem 2.3 A machine bracket is loaded with an inclined force of 1000 N as shown in the figure…
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Q: At a point on the web of a girder on a gantry crane, the stresses acting on the x face of a stress…
A: Given dataσx = 6250psiσy = 3030psiζxy = 1425psiTo determine1) Draw the mors circle2) The principal…
Q: For the hollow built-in pipe with an inner diameter of 48 mm and an outer diameter of 60 mm, the…
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Q: Find the maximum principal stress for the stress case given in the figure
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Q: For the framc shown in the figure, Find the normal and shear stresses based on the following…
A: Given: The diameter of the pin at A, d = 10 mm The diameter of the pin at C, D = 15 mm
Q: A round tapered alloy bar (4m) long is subjected to load as shown in Figure (3.13). Find the…
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Q: Show the derivation of the girth and longitudinal stresses of the thin-walled cylindrical container…
A: Diameter = d Length = l Thickness = t Internal pressure = p
Q: Consider the stress state illustrated in the figure, which involves a normal stress of 40[MPa] in…
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- .4 The stresses on an clement arc known to be sx= 120 MPa, sy= 100 MPa, and txy= 75 MPa. Find the stresses on an inclined section through the element at an angle ? = 45°.‘7.3-11 The stresses on an element are sx= -300 psi and sy= 600 psi. Find the maximum shear stresses on the element and show them on a sketch of a properly oriented clement.The state of stress on an element of material is shown in the figure. Calculate the unit volume change of the element if the stresses x and y. are -20 ksi and 10 ksi, respectively. Assume E = 10,600 ksi and v = 0.33.
- The polyethylene liner of a settling pond is subjected to stresses ax= 350 psi. a = 112 psi. and = -120 psi, as shown by the plalte-stress element in the figure part a. Determine the normal and shear stresses acting on a seam oriented at an angle 01300 to the element, as shown in the figure part b. Show these stresses on a sketch of an element having its sides parallel and perpendicular to the seam.-26 A rectangular plate of dimensions 125 mm × 75 mm is subjected to tensile stress sy= 67 kPa and compressive stress a. If it is known that the normal stress along the diagonal t—t is ??t= -6.57 kPa, find stress ??y on element A. aSolve the preceding problem if the norm al and shear stresses acting on the element are sx = 2100 kPa, sy= 300 kPa, and txy= -560 kPa, and the seam is oriented at an angle of 22.5° to the clement.
- An element on the top surface of the fuel tanker in Problem 7.2-1 is in biaxial stress and is subjected to stresses a = -48 MPa and ay = 19 MPa, as shown in the figure. Using Mohr’s circle, determine the following. (a) The stresses acting on an clement oriented at a counterclockwise angle ?? = 25° from the x axis. (b) The maximum shear stresses and associated normal stresses. Show all results on sketches of properly oriented elements.• - 7.4-7 An element on the surface of a drive shaft is in pure shear and is subjected to stresses ??xy= 2700 psi, as shown in the figure. Using Mohr’s circle, determine the following. (a) The stresses acting on an element oriented at a counterclockwise angle ?= 52° from the y axis. (b) The principal stresses. Show all results on sketches of properly oriented elements.The stresses at a point on the down tube of a bicycle frame are trx= 4800 psi and t = -1950 psi (see figure). It is known that one of the principal stresses equals 6375 psi in tension, (a) Determine the stress (b) Determine the other principal stress and the orientation of the principal planes, then show the principal stresses on a sketch of a properly oriented clement.
- The hollow drill pipe for an oil well (sec figure) is 6,2 in. in outer diameter and 0.75 in. in thickness. Just above the bit, the compressive force in the pipe (due to the weight of the pipe) is 62 kips and the torque (due to drilling) is 185 kip-in. Determine the maximum tensile, compressive, and shear stresses in the drill pipe.The stresses on an element are sx= 1000 Psi. sy= 500 psi, and txy= 350 psi. Find the stresses acting on an element oriented at an angle 0 = 250. Show these stresses on the rotated element.An element on the top surface of the fuel tanker in Problem 7.2-1 is in biaxial .is in the and is subjected to stresses a, = 6250 psi and a. = -1750 psi, as shown in the figure. Using Mohr s circle, determine the following: (a) The stresses acting on an element oriented at a counterclockwise angle ? = 550 from the x axis. (b) The maximum shear stresses and associated norm al stresses. Show all results on sketches of properly oriented elements.