The point A in the following plot represents: A or 0.5 -180 -90 90 180° -0.50, Graph of normal & shear stresses on inclined angle
Q: * The state of plane stress at a point is represented on the element shown in the figure. The…
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Q: Determine the stress components at point H. And show the stress state for this point on a volume…
A: Show the force and moments on cross section H.
Q: The state of stress of an element is given. Determine its principle plane by the specialized…
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Q: The figure shows the stresses at a point. Determine the principal stresses and the maximum shear…
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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. below; a) Draw Mohr's circle, b) Find the maximum…
A: Given Data: The stress in the x-direction is, σx=-20 MPa. The stress in the y-direction is, σy=90…
Q: Thickness = 15 mm Find the stresses developed at point A 100 mm A ta 70 mm 180 mm 30 50 mm 500 N
A: Given: The thickness, t = 15 mm The width, b = 70 mm
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 with respect to the xy-axes is shown in Fig. (a). Using Mohr's…
A: Calculated the principal stress and principal planes, maximum in-plane shear stress and calculated…
Q: Mohr’s circle is shown for a point in a physical object that is subjected to plane stress. Each…
A: For the given Mohr's circle determine the given values.
Q: The state of plane stress at a point is represented on the element shown in the figure. The element…
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Q: se Mohr's circle to find the stress on the slope indicated by the dotted line when the stress state…
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Q: 1.61.The state of stress at a point relative to an x, y, z coordinate system is given by 12 4 -8 1…
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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: Find the major principal stress, average normal stress and maximum shear stress for the following…
A: From the given Mohr's circle σx=80 MPaσy=-20 MPa
Q: At a point in a component, the state of stress is shown on the element below. Assume that the stress…
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Q: Mohr's circle is shown for a point in a physical object that is subjected to plane stress. Each grid…
A: To study the given mohr's circle and determine the given stresses.
Q: The state of stress at a point in a structure is shown in the following figure. Determine: (a) The…
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Q: A point on a thin plate is subjected to the two stress components as shown in the figure below. a.…
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Q: For the state of stress as shown in Figure. Determine the following: 3. Determine the Normal and…
A: Given:
Q: At a point on the surface of a pressurized cylinder, the material element is subjected to stresses;…
A: (1)
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: 2) The state of stesss at a point in a body relative to the xyz coordinate system is: -2 3 -5 [G]= 3…
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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: Mohr’s circle is shown for a point in a physical object that is subjected to plane stress. Each…
A: Given Each grid square is 280 psi in size
Q: [I'wo forces are applied on the beam shown below. (a) Determine the normal and shear stresses point…
A: convert lb to kN 500 lb = 2.24 kN 400 lb = 1.78 kN convert inc to mm 1 in = 25.4 mm 10 in = 254 mm…
Q: Please simply sketch the shear stress diagram 0.5 in. 0.6 in. 0.d in. / 0.8 in. 0.2 in. 0.6 in. ||B
A: GIVEN: To Sketch the Shear Stress Diagram.
Q: If a body is subjected to stresses in xy plane with stresses of 30N/mm² and 40N/mm² acting along x…
A: Data given- σx = 30 N/mm2 σy = 40 N/mm2 τ = 70 N/mm2
Q: Draw the Mohr's Circle (Fig. 3) as accurately as possible on a graph paper. (a) Using equation find…
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Q: )The principal stresses.b)The principal directions (angles to the principal planes).c)The maximum…
A: Given:
Q: The stress components acting on an infinitesimal element extracted from a plate subjected to the…
A: From the given figure we can observe that the principal stress formula is given by…
Q: na stressed element, the value of normal stress along 'X' and 'Y' directions are 200 MPa (tensile)…
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Q: 2. For the state of plane stress given, determine the principal planes, the principal stresses and…
A: givenstress in x direction σx=100MPa tensile stress in y direction σy=-60MPa compressive shear…
Q: QLESTION FOUR Demo dimensional state of stress for a point on a given structural component is given…
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Q: The normal and shear stresses acting on one plane passing through a point in a soil mass are 120 psi…
A: Among the applied normal stresses on mutually perpendicular planes the stress corresponding to…
Q: The stress at a point is shown on the element. Determine (a) principal stress, (b) maximum in-plane…
A: (a) To find: The principle stress. Given: The stress in x-direction is σx=-85 MPa. The stress in…
Q: The stress tensor in MPa for a three-dimensional system for some x, y z axis system is 20 40 -30 40…
A: Given Data:Stress tensor in MPa of a three-dimensional system 2040-30403025-3025-10 σx=20 MPa, σy=30…
Q: Q#2: Explain the absolute maximum shear stress. Construct Tresca's hexagon by explaining all the…
A: Given data To explain the absolute maximum shear stress and construct by Tresca’s hexagon by…
Q: (a) Summarize the stresses as they act on an element on the top surface of the pipe at point H with…
A: GIVEN:- outer diameter: do=115mminner diameter: di=105mmthe dimensions of pipe: a=510mm,…
Q: Plane Stress In the stress element given in Figure, WITH MOHR CIRCLE; a- Determine the principal…
A: To Find 1.MOHR CIRCLE 2.the principal stress directions by calculating the principal stress values…
Q: he figure shows the stresses at a point. Determine the principal stresses and the maximum shear…
A: Given data as per the question σx=4000 lbplg2σy=9000 lbplg2τxy=3000 lbplg2
Q: The state of stresses at a point of a structure is shown in the figure below. A- find the principal…
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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: In Mohr's circle we take a suitable scale to construct the circle. Accordingly we draw the circle.
Q: (a) The plane stress at a point with respect to x-y-axes is shown in Fig. Q1(a). By using…
A: according to the given details:
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- Given a stress state of ø, = -4 MPa, øy = 12 MPa, ty = 7 MPa ccw 1) Draw a properly oriented stress element illustrating this state of stress 2) Using Mohr's circle, find the principal stresses and directions, and show these on a stress element correctly aligned with respect to the xy coordinates. Draw another stress element to show zi and 72, find the corresponding normal stresses, and label the drawing completely. 3) Use the plane-stress transformation equations to validate your answers in part 2Calcuate Bending From Point A to Point B and Point A to Point C, Calcuate torsion From Point A to Point C. Draw a FBD from point A to point B and another for point A to C indicating what stresses are been calculate. Use the stress tensor and stress cube to Indicate what forces are acting at point A. Force apply at point B is 70lb Distacen from Point A to B is 12 in or 1 feet long Distacen from Point A to C is 3 in Handle diameter 0.625 inThe internal loadings at a section of the beam in (Eigure 1) are shown Figure 20 mm 100 mm 200 mm 20 mm 10 kNm 20 mm 10/12 60 kN 80 KN 500 N-m Determine the in-plane principal stresses at point C. Also compute the maximum in-plane shear stress at this point Express your answers, separated by commas, to three significant figures. VAZ Ivec 4 d Submit Provide Feedback T Wha Bequest Answer ? MPA, MPA, MPA
- The plane stress displacement field for the pure bending problem was given by u = - El v = (vy? + x² - P), where -13) Solve the plane stress problem using two-element model to find displacements and stresses. 15 kN 30 mm E-70 GPa Thickness - 10 mmCalcuate Shear and Bending From Point A to Point B and Point A to Point C. Draw a FBD from point A to point B and another for point A to C indicating what stresses are been calculate. Use the stress tensor and stress cube to Indicate what forces are acting at point A. Force apply at point B is 70lb Distacen from Point A to B is 12 in or 1 feet long Distacen from Point A to C is 3 in Handle diameter 0.625 inAngle 1 Tyx Tyx Figure 1 Point A- x-direction stress 60MPA(compression), y-direction stress 40MPA(tension), negative shear stress 30MPA Using your assigned point determine the following for the yz-plane: a) From basic priciples determine the stresses on the plane of the indicated angle 1-30°, Show al calculations. Draw the orientation of the stress block for this scenario. b) Repeat question (a) using a Mohr circle. c) Using a Mohr circle, determine and draw the maximum stress block of the in-plane maximum shear and principle stresses. d) Determine the stresses and orientation of the stress block where the normal stress is zero. Make use of the stress transformation equations. e) Determine the values of absolute maximum shear stress and corresponding normal stress.Given is the following stress tensor (values in MPa): 48 -4 Oij 62) Calculate the magnitudes of the principal stresses and the failure angle (0).At a point in a material under stress, the intensity of resultant stress on certain plain is 16 N/mm^2 (tensile) incline 30°to normal of the plain the stress of the plain at right angle to this has a normal tensil component of the intensity 40N/mm^2 using a more circle calculate the resultant stress on the second plain the principal plains an stress plain of maximam shear and intensity.The state of stress at a point on an element of material is shown. Let sigmaX= 49.0 ksi, sigmaY= 17.0 ksi, and Txy= 11.0 ksi. Use this information to represent the principle state of stress and maximum in plane shear stress. Plot the mohr circle and state sigmaX' and sigmaY' and Tx'y' with unit. Also draw the state of stress on the rotated element.Calcuate Bending From Point A to Point B and Point A to Point C also Torsion from Point A to Point C. Draw a FBD from point A to point B and another for point A to C indicating what stresses are been calculate. Use the stress tensor and stress cube to Indicate what forces are acting at point A. Force apply at point B is 70lb Distacen from Point A to B is 12 in or 1 feet long Distacen from Point A to C is 3 in Handle diameter 0.625 in(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 MPaSEE MORE QUESTIONS