sional stress in part AB, sional stress in part BC, isting angle in part AB, 00C D 10:0
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: Finding the cross sectional area Stress 22.66 N/mm2 Force=2 N
A: Given data : Force is denoted by F Stress is denoted by σ Required : Cross sectional area
Q: 5 5 -5
A: Given Major principal stress = 20 MPa Tensile stress in x direction = 5 MPa Tensile stress…
Q: The Mohr's circle representing a given state of stress is shown. The diagonal line AB represents 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: % -8kN v0.36 kN - B POI tam tantam tata 3m 4m 2 74,36 kN Number 50 kN 0.4m 0.1m IL-POI H 0.07m Fill…
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Q: The stal block Shown below is Subjected to a normal stress Of 100 Mea and 85 MPa Aogether with a…
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Q: Mohr's circle for an element is shown, each grid is 5 MPa square. A rotated plane through the…
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Q: The point A in the following plot represents: A or 0.5 -180 -90 90 180° -0.50, Graph of normal &…
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Q: 7. The state of stress of an element is given. Determine its principle plane by the specialized…
A: Given Data⇒ σx=24 MPa (Tensile)σy=-38 MPa (Compressive)ζxy=38 MPa
Q: y 3D The state of stress at a point is given by oxx = -93 MPa, ayy = 69 MPa, ozz = 58 MPa, oxy = 0…
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Q: The steel shaft with two different diameters rotates at 4.4 Hz. The power supplied to gear C is 73…
A: find the maximum shear stress in the shaft.
Q: o =|-1 -1 -1 (a) Principal stress (b) Principal directions (c) Invariant 1. 7.
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Q: The solid shaft is loaded (two point loads) and supported (fixed at left end) as shown. For the xyz…
A: AS this Question as multiparts solving first part or you can mention the part Given data -: 1. dia…
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 maximum value of Qof the Transverse Shear Stress formula [T = (VQ)/(It)] at point p in…
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Q: Find the value of maximum principal stress Maximum shear stress=80 MPa Minimum principal stress=30…
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Q: shear stresses.(c) Angle of principal stresses (Op)(d) Angle of maximum shear stress (es) * o.y =…
A: Mohr circle is a two dimensional graphical method of expressing the normal stresses and shear stress…
Q: The state of plane-stress at a point is given by o = 200 MPa, o, = 100 MPa and = 100 MPa. The…
A: It is very basic numerical of plane stress. Concept used is Maximum shear stress under biaxial…
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: Determine the normal stress component acting on the plane AB. (Figure 1)
A: We have to find out the normal & shear component of force acting on the plane
Q: A shaft subjected to torsion experiences a pure shear stress t on the surface. The maximum principal…
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Q: 200 400 300 f the components of stress at point p given by 400 Мра , 300 0 -100 hen the stress…
A: Option (III) is correct. [1600/3 400/3 100/3 ]
Q: 1: The inner and outer diameters of the pipe is 50 mm and 75 mm, respectively and it is made of cast…
A: The normal stresses will be acting due the normal forces as well as bending moments on the rod. The…
Q: Q3/ Using Mohr's circle find out the principle stresses and the maximum shear stress and the stress…
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Q: For the figure below determine the * following : R, NB, Ay,Ax R kN/m 300 mm -500 mm-
A: A pin support will exert both horizontal and vertical components of reaction. The support A is pin…
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: Part 1 For the simply supported beam subjected to the loading shown, derive equations for the shear…
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Q: Determine the absolute maximum shear stress of the stress state acting on the element shown in the…
A: It is required to determine absolute maximum shear stress
Q: Assuming the stress state in a rotating gas turbine is axisymmetric, how many stress and/or…
A: For completely determine the stress we need two boundary conditions for complete explanation. We…
Q: i) Absolute maximum shear stress in AB Ans (TAB)mar 28.64 GPa 400 mm ii) Absolute maximum shear…
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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: Oy Ot Txy a Tnt Ox On (b) (a) On the surface of a structural member, stresses are given as ox=67,9…
A: Given data: The stress in x-direction is σx=67.9 MPa The stress in y-direction is σy=25.5 MPa The…
Q: Find the diameter of the propeller shaft, which has to transmit power of 1.5 kW at 8 Hz without…
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Q: If all the shafts are in the opposite shape of the shear modulus Equal to 101 GPa A) Find the…
A: Given data: G=101 GPa Need to determine the maximum amount of shear stress and angle of twist at…
Q: A point on a thin plate is subjected to the three successive states of stress shown. Determine the…
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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: a) Determine the equivalent normal-stress component ox' on an element at the same point oriented 45°…
A: Given:σy=-430KPaζxy=-300KPa
Q: Q.2) For the state of stress shown below, determine the orientation and values of principal…
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Q: Consider a tube having a rectangular cross-section as shown below. The tube is subject to two…
A: Since you haven't provided a diagram related to the question. I've found it on the web which is…
Q: 8. Principal planes are those planes on which a. Normal stress is maximum b. Normal stress is…
A: Principal planes are the planes inside the material at which the shear stress is zero.
Q: Calculate the normal stress and shear stress acting on the plane 2x+y+2z=1 passing thorough a point…
A: given; plane ;2x+y+2z=1stress at point (σ)=162022000023
Q: 1- +4 P = 3.1193x10 P=1.9399X10 a= 295.07 m 2 at eltituce 12 Km Find P,P, T at G Icm ?
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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: AS k Using Mohr's circle method, Draw Mohr's circle Draw the direction of the state of stress block…
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Q: The stress matrix referred to axes Px,x,x3 is given in ksi by 14 21 [0,]=| 0 21 21 7 Let rotated…
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Q: For the given Mohr's circle where o, = 40 MPa,try = 40 MPa, (i) what is the maximum shear stress…
A: Given data Stresses given are:σx = 40 MPaτxy = 40 MPa
Q: direction in which the normal stress is zero, direction in which the normal stress is zero, ulate…
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- A tubular shaft being designed for use on a construction site must transmit 120 kW at 1,75 Hz, The inside diameter of the shaft is to be one-half of the outside diameter. If the allowable shear stress in the shaft is 45 MPa, what is the minimum required outside diameter d?Solve the preceding problem for the following data: diameter LO m, thickness 48 mm, pressure 22 MPa, modulus 210 GPa. and Poisson's ratio 0.29Repeat the preceding problem using sx= 5.5 MPa. ??y= 4 MPa. and txy= 3.2 MPa.
- A stepped shaft ABC consisting of two solid, circular segments is subjected to torques T}and T2acting in opposite directions, as shown in the figure. The larger segment of the shaft has a diameter of dv- 2.25 in. and a length Lt= 30 in.; the smaller segment has a diameter d2— 1.75 in. and a length L, = 20 in. The torques are T, = 21,000 lb-in. and fz=10.000 lb-in. (a) Find reaction torque TAat support A. (b) Find the internal torque T(x) at two locations: x = L1/2 and x = L1+ L2/2. Show these internal torques on properly drawn free-body diagrams (FBDs).A hollow steel shaft used in a construction auger has an outer diameter d2= 6.0 in. and inner diameter d1= 4.5 in. (see figure). The steel has a shear modulus of elasticity G = 11.0 × 106 psi. For an applied torque of 150 kip-in., determine the following quantities: shear stress at the outer surface of the shaft, shear stress at the inner surface, and rate of twist (degrees per unit of length). Also, draw a diagram showing how the shear stresses vary in magnitude along a radial line in the cross section.Two sections of steel drill pipe, joined by bolted flange plates at B, arc subjected to a concentrated torque 4000 kip-in. at x = 3 ft, and a uniformly distributed torque t0= 50 kip-ft/ft is applied on pipe BC. Let G = 11,800 ksi and assume that pipes AB and BC have the same inner diameter, d = 12 in. Pipe AB has a thickness tAB= 3/4 in., and pipe BC has a thickness tBC= 5/8 in. Find the reactive torques at A and C and the maximum shear stresses in each segment.
- A circular aluminum tube subjected to pure torsion by torques T(sec figure) has an outer radius r2equal to 1.5 times the inner radius r1. (a) If the maximum shear strain in the tube is measured as 400 × 10-6 rad, what is the shear strain y1at the inner surface? (b) If the maximum a1lo-abk rate of twist is 0.125 °/m and the maximum shear strain is to be kept at 400 × 10-6 rad by adjusting the torque T, that is the minimum required outer radius ( r2)Min?A uniformly tapered lube AB of circular cross section and length L is shown in the figure. The average diameters at the ends are dAand d£= 2d t. Assume E is constant. Find the elongation S of the tube when it is subjected to loads P acting at the ends. Use the following numerical data:^ = 35 mm, L = WO mm, E = 2.1 GPa. and P = 25 tN. Consider the following cases. (a) A hole of constant diameter dAis drilled from B toward A to form a hollow section of length x - U2. (b) A hole of variable diameter a\.x) is drilled, from B toward A to form a hollow section of length x = L/2 and constant thickness t = dA/20.A stepped shaft ABC consisting of two solid, circular segments is subjected to uniformly distributed torque t1acting aver segment 1 and concentrated torque t2applied at C, as shown in the figure. Segment 1 of the shaft has a diameter of d1= 57 mm and length of L1= 0.75 m; segment 2 has a diameter d2— 44 mm and length L2= 0.5 m. Torque intensity /,"= 3100 N . m/m and T2= 1100 N. m. (a) Find reaction torque TAat support A. (b) Find the internal torque T(x) at two locations: .x = L1/2 and at .x = L1+ L2/2. Show these internal torques on properly drawn free-body diagrams.
- A hollow circular tube having an inside diameter of 10.0 in, and a wall thickness of 1.0 in. (see figure) is subjected to a torque T = 1200 kip-in. Determine the maximum shear stress in the tube using (a) the approximate theory of thin-walled tubes, and (b) the exact torsion theory. Does the approximate theory give conservate or nonconservative results?-11 A solid steel bar (G = 11.8 X 106 psi ) of diameter d = 2,0 in. is subjected to torques T = 8.0 kip-in. acting in the directions shown in the figure. Determine the maximum shear, tensile, and compressive stresses in the bar and show these stresses on sketches of properly oriented stress elements. Determine the corresponding maximum strains (shear, tensile, and compressive) in the bar and show these strains on sketches of the deformed elements.A cylindrical pressure vessel having a radius r = 14 in. and wall thickness t = 0,5 in, is subjected to internal pressure p = 375 psi, In addition, a torque T = 90 kip-ft acts at each end of the cylinder (see figure), (a) Determine the maximum tensile stress ctniXand the maximum in-plane shear stress Tmjv in the wall of the cylinder. (b) If the allowable in-plane shear stress is 4.5 ksi, what is the maximum allowable torque T\ (c) If 7 = 150 kip-ft and allowable in-plane shear and allowable normal stresses are 4.5 ksi and 11.5 ksi, respectively, what is the minimum required wall thickness