In the case of the infinitesimal elements shown in the figures, determine the normal and shear stresses that act in the indicated planes. Use the "wedge" method
Q: For the state of stress given in the Figure below determine the following: 1. the principal stresses…
A: Given:σx=18 MPaσy=-14 MPaζxy=12 MPa
Q: For the state of stress given below, a) Determine principal stresses and principal planes b)…
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Q: A block is subjected to the stresses as shown in Fig. 1. If the allowable compressive normal stress…
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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: A șteel pipe with an outside diameter of (95 mm) and an inside diameter of (85 mm) supports the…
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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: Q1) A stat of stress is specified in Figure. By using Mohr's circle determine the normal and…
A: Given:σx=60 MPaσy=-18 MPaζxy=15 MPa
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: 5 mm B. ON A 1900 N 800 M
A: given:
Q: Determine the principal stresses, the maximum in-plane shear stress, and average normal stress.…
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Q: Using Mohr's circle, determine (a) the principal stresses and (b) the maximum shear stress and…
A: Mohr's circle for the given stressed element centre of the mohr's circle 'C'C=σx+σy2=60+02=30…
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: In the following Figure using given material properties. a) Determine the internal forces and…
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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: A point is subjected to tensile stresses of 200 MPa and 150 MPa on two mutually perpendicular planes…
A: Stress is defined as the resistance force acting per unit cross-section area of the body. It is also…
Q: wood grains on the board shown below form an angle of 20° with the horizontal. using the circle of…
A: Given data,axial load=250N
Q: A typical aluminum-allóy scuba diving tank is shown in thế ngure. The outside diameter óf the tank…
A: Solution:
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: Determine the stresses ox, Oy, and txy, and show them on a stress element. Determine the stresses…
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Q: 5. The normal and shear stresses acting on one plane passing through a point in a soil mass are 120…
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Q: rect stresses of 160N/mm tensile and 120 N/mm compressive exist on two perpendicular planes at a…
A: Given, direct tensile stress, σt=160N/mm2 Compressive stress, σc=120N/mm2 The greatest principal…
Q: Q1) A stat of stress is specified in Figure. By using Mohr's circle determine the normal and…
A: Given:σx=60 MPaσy=-18 MPaζxy=15 MPa
Q: For the state of plane stress shown below, determine the principal stresses, the maximum in plane…
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Q: Bi-axial state of stress at a point is shown below. What will be the value of principal stresses and…
A: From the given figure, σx = 100 MPa σy = 80 MPa τxy = 50 MPa
Q: For the shown element, what are the principal stresses and their orientations (ew, cew), draw the…
A: (a) To find: The principle stress and the orientation of principle stress Given: The stress in…
Q: Determine magnitude of the stresses acting on plane inclined at an angle 0 = 30°, where the vertical…
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Q: The stresses shown in the figure act at a point in a stressed body. If o = 239 MPa in the direction…
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Q: For the state of stress as shown in Figure. Determine the following 1. Determine the Principal…
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Q: When there is a plane stress condition as shown in the figure, display this stress in the form of…
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Q: Determine the stresses at points A and B as a results of applying each of the following internal…
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Q: Determine magnitude of the stresses acting on plane inclined at an angle 0 = 30°, where the vertical…
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Q: A block is subjected to the stresses as shown in Fig. 1. If the allowable compressive normal stress…
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Q: Determine (a) the principal stresses and (b) the maximum shear stress and associated normal stress…
A: normal stress in x direction σx=300 MPanormal stress in y direction σy=-100 MPa (-ve for…
Q: Mohr's circle is shown for a point in a physical object that is subjected to plane stress. Each grid…
A: GIVEN :Mohr's circle : Which represents the stresses at a point in an object, that point is…
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: The stresses shown in the figure act at a point on the free surface of a machine component. If o =…
A: Loads acting on a body induces stresses in all directions at any point of the body. The point can be…
Q: 150 mm 300 mm 250 mm F A H d. y F 200 mm 200 mm E Figure Q1(b)
A: Given: F = 200 N and P = 150 N Outside diameter of the pipe, do = 45 mm Inside diameter of the pipe,…
Q: For the state of stress shown in the figure, determine the stress component Txy so that the maximum…
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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: 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: For the state of plane stress, stress components are shown on the element in Figure Question 1: a)…
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Q: 3. Listed below is a combination of stresses acting at a point and referred to axes x and y in an…
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Q: Determine the normal and shear stresses at point D that act perpendicular and parallel,…
A: Given: The load at the point D is 10 kN. The beam is shown below:
Q: Determine (a) the principal stresses and (b) the maximum shear stress and associated normal stress…
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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: The frame in (Figure 1) is subjected to a horizontal force of P = 360 N and couple moment. The…
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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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- .4-2 An element in uniaxial stress is subjected to tensile stresses sx= 57 MPa. as shown in the figure. Using Mohr’s circle, determine the following. (a) The stresses acting on an clement oriented at an angle 0 = 33° from the x axis (minus means clockwise). (b) The maximum shear stresses and associated normal stresses. Show all results on sketches of properly oriented elements.Solve the preceding problem if the normal and shear stresses acting on element B are 56 MPa, 17 MPa, and 27 MPa (in the directions shown in the figure) and the angle is 40° (clockwise).At a point on the surface of an elliptical exercise machine, the material is in biaxial stress with t = 1400 psi and trv = —900 psi, as shown in the figure part a. The figure part b shows an inclined plane aa cut through the same point in the material but oriented at an angle ft Determine the value of the angle 6 between zero and 90° such that no normal stress acts on plane aa. Sketch a stress clement having plane aa as one of its sides and show all stresses acting on the clement
- -18 through 7.4-25 An clement in plane stress is subjected to stresses a,, ay., and axy. (see figure). Using Mohr’s circle, determine (a) the principal stresses and (b) the maximum shear stresses and associated normal stresses. Show all results on sketches of properly oriented elements.An element in plane stress on the fuselage of an airplane (figure part a) is subjected to compressive stresses with a magnitude of 42 MPa in the horizontal direction and tensile stresses with a magnitude of 9.5 MPa in the vertical direction (sec figure part b). Also, shear stresses with a magnitude of 15.5 MPa act in the directions shown. Determine the stresses acting on an element oriented at a clockwise angle of 40g from the horizontal. Show these stresses on a sketch of an element oriented at this angle.Solve the preceding problem for an element in plane stress on the bottom surface of a fuel tanker (figure part a); stresses are sx= 105 MPa, sy. = 75 MPa, and ??xy= 25 MPa. Determine the stresses acting on an element oriented at an angle ?? = 40° from the x axis, where the angle is positive when counterclockwise. Show these stresses on a sketch of an element oriented at the angle ??.
- An clement m plane stress from the frame of a racing car is oriented at a known angle 8 (sec figure). On this inclined clement, the normal and shear stresses have the magnitudes and directions shown in the figure. Determine the normal and shear stresses acting on an clement whose sides are parallel to the \y axes, that is, determine crv, tr(_, and t, Show the results on a sketch of an clement oriented at B .-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. a-18 through 7.4-25 An clement in plane stress is subjected to stresses sx,,sy., andtxy(see figure). Using Mohr’s circle, determine (a) the principal stresses and (b) the maximum shear stresses and associated normal stresses. Show all results on sketches of properly oriented elements.
- For the state of plane stress shown in Figure-1. below; now. Draw Mohr's circle, and also Determine the maximum in-plane shear stress,When there is a plane stress condition as shown in the figure, display this stress in the form of the maximum in-plane shear stress and the corresponding average vertical stress.Q1: A certain point in the mechanical part shown in Figure below. Use Mohr's stress circle to determine: (a) the magnitude and nature of the principal stresses and the inclinations of the principal planes. (b) the maximum shear stress and the inclinations of the planes on which it acts. (c) the magnitude of the normal stress and shear on a plane inclined at 25° counterclockwise to the plane on which the 60 MN/m² stress acts. 50 MN/m² 30 MN/m² 60 MN/m²