A plane element is subjected to stress as shown in below figure. Determine the radius of the mohr circle drawn for this state of stress. 40 MPa | 40 MPa 60 MPa
Q: Q2: For the element shown in Figure 2. Use the data from Table 2 Determine the following: 1. The…
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Q: * The state of plane stress at a point is represented on the element shown in the figure. The…
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Q: For the state of stress given below, a) Determine principal stresses and principal planes b)…
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Q: Q2: For the element shown in Figure 2. Use the data from Table 2 Determine the following: 1. The…
A: A perpendicular force applied on a body per unit area is referred to as a stress. There are three…
Q: 6. In a plane stress condition, the components of stress at a point are o, =20 MPa, oy =80 MPa and…
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Q: A certain point in the mechanical part has shearing and normal stresses measured in MN/m^2 as shown…
A: Write the given data.
Q: Q2) An element in a plane stress is oriented at an angle 0 = 60° CCW direction. On the inclined…
A: Normal stress Normal stress is the stress occurred when it is subjected to axial load. Shear…
Q: For the state of plane stress shown in Figure-1. t a) Draw Mohr's circle, b) Determine the maximum…
A: Given data:- σx=-20MPa,σy=90MPa,τxy=60MPa Center of mohr's circle=σx+σy2,0=-20+902,0=(35,0) Radius…
Q: The state of plane stress at a point is represented on the element shown in the figure below. (a)…
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Q: If the principal stresses in a plane stress problem are ơ1 = 100 MPa, ơ2 = 40 MPa, the magnitude of…
A: Write the given values along with suitable variables.
Q: 50 MPa 90 MPa 35 MPа 60 90 MPa 50 MPa 30
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Q: 90 MPA 60 MPA 20 MPA
A: Given that, σx=-20 MPa,σy=90 MPa,τxy=60 MPa, Steps to draw mohr's circle: 1. Take direct stress at…
Q: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
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Q: Q1: A certain point in the mechanical part shown in Figure below. Use Mol determine: (a) the…
A: Givenσx=60 MN/m2=60MPaσy=-50MN/m2=-50MPaτxy=30MN/m2=30MPa
Q: The state of plane stress at a point is represented by the element shown in the figure. в, - 200 Мра…
A: note: Mohr's circle is used to calculated the principle stresses
Q: - The state of plane stress at a point is shown on the element in Figure below. Represent this state…
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Q: Using Mohr's circle, determine stress components on an element oriented 60 ° counter- clockwise with…
A: Given σx=100 MPaσy=160 MPaτxy=60 MPaNow the element is oriented 60o counter clockwise so the mohr's…
Q: Determine the equivalent state of stress on an element at the same point oriented 60° clockwise with…
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Q: Determine the principle stresses σ1, σ2, σ3 and their orientation φ, if σx, σy and σz are known as…
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Q: Please find the question attached.
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Q: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
A: The stepwise procedure to solve this problem is shown in the following attached image:
Q: The state of plane stress at a point is shown on the element in Figure below. Represent this state…
A: Given: The orientation of element, θ = 45° The stress along x-axis, σx = -10 ksi The stress along…
Q: B) The Figure shows Mohr's circle for a point in a physical object that is subjected to plane…
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Q: 1) The curve of stress versus time on the cross section of engine connecting rod is shown in the…
A: Given data: Maximum stress, σmax = 78.61 N/mm2. Minimum stress, σmin = -10.75 N/mm2. Calculate the…
Q: Q.1) For the given state of stress at a point (Normal stresses are 200 & 150 MPa, and Shear stress…
A: Given data:6x=-200MPa6y=-150MPa → compressive normal stressτxy=100MPaθ=30°To find:1) Normal…
Q: The state of stress at a given point is given in the following figure. Use Mohr’s circle to find: a)…
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Q: (7) For the state of plane stress shown in the figure, determine the normal and shear stresses…
A: Given data: The stress in the x-direction is σx=-50 MPa The stress in the y-direction is σy=0 MPa…
Q: For a point under a plane state of stress, the stresses on the vertical and horizontal planes are…
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Q: Oy Ot Txy Tnt Ox On (a) (b) On the surface of a structural member, stresses are given as ox=67,9…
A: The normal stress after rotation is given by- σn=σx+σy2+σx-σy2cos2α+τxysin2α In first case - σx=67…
Q: 2- The state of plane stress at a point with respect to the xy-axes is shown in Fig, find the normal…
A: To find : The normal and shear stress on section inclined at an angle of 30° Given : The stress in…
Q: A structural member is subjected to a set of forces and moments. Each separately produces the stress…
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Q: A point on the surface of a mechanical component has the following state of plane stress o. = 90…
A: Given:- σx=90 MPaσy= -50 MPaτxy= 60 MPaTo find:-a) Draw mohrs circleb) Principal stresses and…
Q: Oy Ot Txy Tnt Ox On (b) (a) On the surface of a structural member, stresses are given as ox=61 MPa,…
A: Given data: Stresses on the surface of structural member σx=61 Mpa σy=32.7 Mpa τxy=-28.1 Mpa α=54.8°…
Q: 3. For the given state of stress, determine the principal planes, the principal stresses, and…
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Q: What is the absolute maximum shear stress in [MPa] of the generalised plane stress shown with Oz =…
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Q: The state plane stress at a point is represented by the stress element below. Determine the stresses…
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Q: Determine the equivalent state of stress on an element at the same point which represents the…
A: find the normal stress on the element with orientation 31.7 °.
Q: The greatest normal stress, b) The greatest shear stress, c) Calculate the shear stress at point a.
A: GIVEN :-Squre hollow bar : h=100mmlength : L=1100mmthickness: t=10 mm SOLUTION :- using force…
Q: For the state of plane stress, stress components are shown on the element in Figure Question 1: a)…
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Q: An element in plane stress is subjected to stresses: 0, = 17 MPa, o, = 12 MPa, and Txy = 15MPa, as…
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Q: 1) For the state of stress shown in figure, use the Mohr's circle method to determine (a) The…
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Q: An element in plane stress is subjected to stresses o, = -60 MPa, oy = -40MPA, and Ty = 35MPA, as…
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Q: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
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Q: Oy Ot Txy Tnt Ox On n (b) (a) On the surface of a structural member, stresses are given as ox=67,9…
A: The stress stress after rotation is given by - τnt=-σx-σy2sin2α + τxycos2α In first case-…
Q: In the following Figure using given material properties. a) Determine the internal forces and…
A: Thermal strain in a material occurs when there is a change in the temperature of the substance. The…
Q: A certain point in the mechanical part has shearing and normal stresses measured in MN/m^2 as shown…
A: In Mohr's circle we take a suitable scale to construct the circle. Accordingly we draw the circle.
Q: 2.7. The principal stresses at a given point are o1 =10 MPa, ơ2=-100 MPa. Sketch Mohr's circle for…
A: Given data: The positive principal stress, σ1=10 MPa. The negative principal stress, σ2=-100 MPa.…
Q: * 'Determine the ox 30 MPa 10 MPa 20 MPa The state of plane stress at a point is represented on the…
A: find the segma x in oriented element.
Q: The stresses shown in the figure act at a point in a stressed body. If o = 115 MPa in the direction…
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- 160 MPa Find the approximate prime plane in degrees for the state of stress given in the figure. 45 MPa 100 MPa 100MPa 45 MPa 60 MPa O 66 O 55 O 44 O 33 O 2The state of plane stress at a point is represented on the element shown in the figure below. (a) Determine the principal stresses acting on this point, and the corresponding orientation (angle). (b) Determine the maximum in-plane shear stress, and the corresponding orientation (angle). Also determine the associated average normal stress. Draw Mohr's circle and show the stresses on the circle. 16 MPa 10 MPаA point on a thin plate is subjected to the two stress components as shown in Figure 7. Determine the resultant state of stress represented on the element oriented as shown on the right. “L.. 100 MPa Oy 160 MPa Txy |45° Ox + 30 100 MPa
- (b) Mohr's circle, invented by Christian Otto Mohr, is a graphical representation of the transformation law for the stress system. Use Mohr's circle to determine the stresses on an element inclined at 30° clockwise to the state of plane stress system as shown in Figure 1 and show the corresponding stress elements. Q2 (a) It is important im 80 MPa 50 MPa Ľ 50 MPa Figure 1 80 MPa 25 MPa2-89* At a point in a structural member subjected to plane stress there are stresses on horizontal and vertical planes through the point, as shown in Fig. P2-89. Use Mohr's circle to determine the principal stresses and the maximum shear stress at the point. Show these stresses on the planes on which they act. 7 ksi 12 ksi 25 ksiDetermine stress components acting on the inclined plane AB shown in Figure 1. The directions of the stress components are as indicated in Figure 1. 50 MPa A 30 МРа 70 MPa 50° B
- Using Mohr's circle, determine stress components on an element oriented 60 ° counter- clockwise with respect to the element shown in Figure 2. The directions of the stress components are as indicated in Figure 2. 160 MPa 60 MPa 100 MPaThe state of stress at a point on a thin plate is as shown in the left side of the Figure below. Determine the state of stress (ox, oy, txy) represented on the element oriented as shown on the right. 120 Sigma_x^prime (MPa) 200 Sigma_y^prime (MPa) 60 Tau_xy^prime (MPa) 30 Alpha (degrees) O x' Oy Txy' Txy OxCalculate the combined stress (MPa) on the rod shown below using the principle stress method. Here, F1 = 0.35 kN, F2 = 0.12 kN, T = 428000 N-mm. Length and diameter of the rod are 75 cm and 75 mm, respectively. F2 F1 d
- The Mohr's circle representing a given state of stress is shown. The diagonal line AB represents the original orientation where point A corresponds to the x face and point B corresponds to the y face. a) Show the stresses represented by line AB on the provided stress element. 60 X -30-1 {MPa} y T(MPa) b) Determine the principal stresses and show them on a properly oriented stress A element. y X 40 B 20p 30 40 40Q1: For the Figure shown below, determine (a) the principal stresses and show them on a sketch of a properly oriented element, and (b) the maximum in-plane shear stresses and show them on a sketch of a properly oriented element. 60 MPa 45 MPa 30 МРаA state of plane stress is illustrated in the stress element in Figure 3. (a) (b) 30 MPa Figure 3. 40 MPa 60 MPa y X Find the center, X and Y of the Mohr circle. Plot the Mohr circle using these points. From the Mohr circle, find the principal stress and the maximum shear stress. Indicate on the Mohr circle where these values are found.