5 mm B. ON A 1900 N 800 M
Q: Q: If a point is subjected to the state of stress shown in fig. bellow. Determine: 1-The principal…
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Q: Draw Mohr's circle for the state of stress defined by 01 = 80 MPa, o2 = -20 MPa and t12= 40 MPa. (1…
A: To draw mohr's circle for the state of stress
Q: Determine the average nommal stress developed at points A, B, and C. 1 attachment 5.2 cm 4 cm 4 cm…
A: Normal stress acting at point A is σA=FA=4Fπd2=43 kipπ1.5748 in2=1.540 kip/in2 4 cm=1.5748 in
Q: For each of the elements shown below, draw Mohr's circle and determine the principal stresses (0₁,…
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Q: Determine the magnitude of the maximum shear stress on the stress element for which σx=-87 MPa,…
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Q: Determine the torsional stress in the thin-walled tube as shown:
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Q: "ROBLEM .. Determine the magnitude and type of axial stress of the 1/8 inch wire and of the ¼ in.…
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Q: Determine the maximum normal stress (in Mpa) in bar ABCD if the cross-sectional area of the bar is A…
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Q: Using the element sectioned at plane b-b and the rotated coordinate system shown, determine the…
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Q: The state of plane stress at a point is shown on the element in Fig. 9–19a. Determine a) the maximum…
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Q: the given state of stress, determine the normal and the shearing stresses after the elem rotated 20…
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Q: A. Draw the Mohr's Circle. B. Determine the principle stresses and draw the corresponding stress…
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Q: 05: For the given state of stresses shown, draw the required Mohr's circle and determine: The…
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Q: 4 ksi The state of plane stress at a point is shown on the element. (a) Draw Mohr's circle neatly to…
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Q: Determine the state of stress at point A on the cross section of the shaft at section a–a. Show the…
A: The free-body diagram of point A is written as, On using the force equilibrium in the z-direction,…
Q: Solve Prob. for the normal stress acting perpendicular to the seam.
A: Given data: Normal force, F = 200 N From the diagram it is clear that it is uniaxial state of…
Q: Determine
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Q: Use Mohr’s circle to determine the principal stresses at the point. Also, find the corresponding…
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Q: Part A Determine the principal stresses and the absolute maximum shear stress.
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Q: Using Mohr's circle, determine: (a) The stresses acting on an element oriented at an angle 0=-30°…
A: Mohr's circle shows the transformation equations of the issues of planar stress. It is helpful to…
Q: The cross-sectional area of bar ABCD is 600 mm?. Determine the maximum normal stress in the bar.…
A: Given data: Force acting at B = 25kN Force acting at C = -20kN Force acting at D = 30kN Cross…
Q: The pedal crank for a bicycle has the cross section shown. If it is fixed to the gear at B and does…
A: Given data: The magnitude of the force subjected on the pedal is; F = 50 lb. Draw the…
Q: The state of stress at a point is shown on the element. Determine (a) the principal stress and (b)…
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Q: For the given state of stress, determine (a) the principal planes, (b) the principal stresses
A: Given data: The normal stress in x-direction is: σx = -60 MPa (compressive stress is taken as…
Q: Using Mohr's circle, determine the fol (1) the stresses acting on an element in (2) the principal…
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Q: For the given state of stress, determine (a) the orienta-tion of the planes of maximum in-plane…
A: Solution σx=18 ksiσy=-12 ksiτxy=8 ksiσavg=σx+σy2=18-122=3 ksi (a) The orientation of…
Q: The 200 N lamp shown above is supported by two steel rods connected by a ring at A. Determine which…
A: Given:Weight of the lamp, W=200 Nθ=60odAB=12 mmdAC=10 mm
Q: Using Mohr's circle, determine: (a) The stresses acting on an element oriented at an angle 0-30°…
A: Mohr circle is a two dimensional graphical method of expressing the normal stresses and shear stress…
Q: F1-11. Determine the average normal stress developed at points A, B, and C. The diameter of each…
A: When an external force is applied to any body the body gets deformed. This deformation is resisted…
Q: The state of stress at a point in the machine element is shown in figure below. Determine the normal…
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Q: Using transformation equations of plane stress, determine the normal and shear stress components for…
A: The clockwise angle between the x’-axis and the x-axis is, θ=0.5 rad×180°π=28.65° The stress…
Q: Q1/ For the state of plane stress shown below, construct and determine:- (a) the principle stress…
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Q: Determine Value of x if the Normal stress at rod is equal to the stress at rectangular pipe A =400…
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Q: Determine the average normal stress developed on the cross section as shown in Figure 1. 600 kN
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Q: Problem: 50 MPa B Determine the principal planes, principal stresses. and the maximum 80 MPa 80 MPa…
A: Givenσxx=-80MPaσyy=50MPaτxy=25MPa
Q: Determine the equivalent state of stress on an element at the same point that represents the…
A: The given data: Now write the expression for principal stresses for the given system.
Q: Determine the average normal stress at points A, B, and C. The diameter of each segment is indicated…
A: Given data: The diameter of the segment at A, dA = 0.5 in. The diameter of the segment at B, dB = 1…
Q: Show how to find the horizontal and vertical stresses (unknown a, and ay but known t) if u were…
A: As per our guidelines we are supposed to solve only one question if multiple questions are asked .…
Q: Calculate the average normal stress and determine the radius of Mohr's Circle. Then draw Mohr's…
A: Write the given data in the problem. Sx=-36 MPa Sy=-70 MPaSxy=25 MPa Here, the negative sign on…
Q: The state of plane stress at a on the element. Represent th on an element oriented 60°…
A: Given Data : σx=34 MPaσy=30 MPaζxy=20 MPa
Q: From the figure shown, the diameter of each segment is indicated. Determine the average normal…
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Q: Draw Mohr's circle that describes each of the following states of stress. 5 MPa 20 ksi 5 MPa - 20…
A: To draw the Mohr's circle for the given state of stresses
Q: A force Q of magnitude 3 kips is applied to the machine element AB as shown. The uniform thickness…
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Q: Determine the equivalent state of stress on an element at the same point oriented 45° clockwise with…
A: Given Data: The value of σx=0 The value of σy=-400 kPa The value of τxy=-300 kPa The angle of…
Q: The 0.97 in diameter rod is subjected to the loads shown. Determine the normal and shear stress at…
A: To find: The normal and shear stress at point B. Given: The diameter of the rod is d=0.97 in.…
Q: For the given state of stress, determine (a) the principal planes, (b) the principal stresses
A: Given data: The stress in x-direction, σx = 18 ksi. The stress in y-direction, σy = -12 ksi. The…
Q: Determine the equivalent state of stress for an element oriented 60° counterclockwise from the…
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Q: Q2) Determine the normal stress at points A and B. Also, calculate how much the neutral axis is…
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Q: At a point in a stressed body the state of stress on two planes 45° apart is as shown below.…
A: Given:σx=8 MPaτxy=3 MPaθ=45o
Determine the average normal stress developed at points A, B, and C. The diameter of
each segment is indicated in the Figure below.
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- Build the following part. Report the mass in pounds. Assume all dimensions are in inches. The material is Vanadium. (Located in the "Other Metals" folder in the material properties.) A = 1.72 B = 1.4 2.40 1.20 T .75 TYP 1.20 TYP .70 -1.00 TYP A A A+3.25 R.35 TYP -R.65 TYP CBORE FOR 5/16 HEX HEAD BOLT Ø.332 THRU ALL LØ813 V 235 .10- SECTION A-A 23. B B+1Build the following part and report the volume in units cubed. A = 48 B = 51 R20 R10 B 30 50 2X R10 R20 Ø20 A 10 TYP DESIGN ERICS DRAWING TITLEThe cross-section at C is annular, having an outer diameter of 25mm. The 1200 N forces are applied and the normal stress in the bone at point C is determined to be 3.80 MPa. Calculate the inner diameter of the bone cross section at C.
- P1.60 A block of weight W is being pulled over a table by another weight Wo, as shown in Fig. P1.60. Find an algebraic formula for the steady velocity U of the block if it slides on an oil film of thickness h and viscosity u. The block bottom area A is in contact with the oil. Neglect the cord weight and the pulley friction. Assume a linear velocity profile in the oil film.Q1. The 1000 N.cm clockwise is the resultant of the force system shown in figure 1, determine the value of P,q and C. 0.5 g Niem P. 9Nicm A N/30 100 75 Figure (1)1 0 Calculate the total volume of the cylindrical component below (not to scale): L1 D1- D1 = 1.12 cm D2 = 0.71 cm D3 = 1.58 cm L1 = 18.68 cm L2 = 15.36 cm L3=13.77 cm L4 = 9.77 cm Answer: Check L2 L3 L4 D2- What is the volume of the cylindrical component? (State your answer in S.I. units (m³), accurate to 3 significant figures) D3