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 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 TITLEBuild 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+1The 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.
- 1.1 Express the following in engineering notation: a. 4270 ms b. 0.00153 V c. 12.3 x 104 s C 11P1.60 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.10) Determine T1 and T2 in N. 45 Tz 50 N
- 100 mm В A 30 mmQ1. 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