Q1. Find the shear stress in aluminum and Steel TAl, TS Use: Gsteel = 85 GPa, GAI= 30 GPa
Q: A) Find the principal Stresses B) Find the Maximum Shear Stress 30 MAa $45 MPa 60 MPa
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Q: Oox= 10 MPa (compres Q2 (a): Figure below shows the state of stress at a critical point on a…
A: Givenσxx=10MPaσyy=25 MPaτxy=90 MPaσzz=20 MPaSyt=300 MPaSyc=600 MPaSsy=200 MPaεF=0.15
Q: A circular pipe of internal diameter 30 mm and thickness 4 mm is subjected to a force 30 kN and the…
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Q: Given a shear stress of txy 5000 psi and a shear modulus of G 1.15 x 107 %3| psi, find the shear…
A: Shear stress, τxy=5000 psiShear modulus, G=1.15*107
Q: The state of stress at a point is given by ox = -6 MPa, ơy = 4 MPa, and Txy = -8 MPa. The maximum…
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Q: below, find the maximum shear stress and maximum normal stress
A: to find Maximum shear stress and maximum bending stress.
Q: The state of stress at a point is given by ox=-6 MPa, oy=4 MPa, and Txy=-8 MPa. The maximum tensile…
A: To find: The maximum tensile stress at the point. Given: The stress are σx=-6 MPa, σy=4 MPa and…
Q: Find the insitu stress
A: We will use the formula to find the resultant of two stresses on any oblique plane
Q: Find shear stress in pin
A: Given data Given force system
Q: The state of stress at a point under plane stress condition is Ox = 150 MPa, Oy = 50 MPa, Txy = 20…
A: Mohr's circle is a two dimensional graphical representation of state of stress at a point. Mohr's…
Q: Two carbon steel balls, each 30 mm in diameter, are pressed together by a force F. In terms of the…
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Q: Given a shear stress of Txy = 5000 psi and a shear modulus of G 1.15 x 107 psi, find the shear…
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Q: 2- If (maximum shear stress) Tmax=800 KPa, calculate L. 24KN A is ido mm 24KN
A: Given data: Maximum sear stress τmax=800 kPa Need to determine the value of L.
Q: An electric power transmission pole is 12 m above ground level and embedded 2 m into the ground. The…
A: To given thatElectric power transmission pole is above ground level=12mEmbedded into the ground…
Q: 1. Find the flexural stress at point A 2.5 kN/m 2.25 m 3.5 m
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Q: principle plane the magnitude of shear stress will be equal to On a
A: Principal stress is the maximum normal stress in a body acting on plane . The plane on which…
Q: Find the maximum shear stress if maximum principal stress is 30 MPa Minimum principal stress 20 Mpa
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Q: Q4. The stresses at a point in a component are 160 MPa and 60 MPa both tensile. Find the intensities…
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Q: A state of stress at a point A is given by ox = 45 MPa, oy = 9.1 MPa, and txy = -5.75 MPa. What is…
A: The given values are - σx=45 MPa, σy=9.1 MPa, ζxy=5.75 MPaThe principle stress is given by - σ1 ,…
Q: A structure, which cross-section is S= 100 mm², is submitted to a tension of 1kN. What is the…
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Q: A cylindrical steel pressure vessel with a diameter of 1200 mm and a wall thickness of 20 mm is…
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Q: Draw Mohr circle for the given stress state Find o1, 02 and R (Tmax) Txy = 40 MPa o, = 50 MPa = 30…
A: Given data:- Stress in x-direction, σx=50MPaStress in y-direction, σy=-30MPanegative for compressive…
Q: Find the longitudinal stress in the tank.
A: To Find the longitudinal stress.
Q: A state of stress at a point A is given by ox = 210 MPa, oy = -140 MPa, and txy = 95 MPa. Which of…
A: The correct answer is option e) 234.071 Mpa
Q: A thin cylindrical pressure vessel of 1.2 m diameter generates steam at a pressure of 1.75 N/mm2.…
A: Given data:
Q: A horizontal force P= 110,976 N is pushing an inverted L-frame supported by a foundation at the…
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Q: A state of stress at a point A is given by ox 210 MPa, oy = -140 MPa, and txy = 95 MPa. What is the…
A: Given, σx=210 MPaσy=-140 MPaτxy=95 MPa
Q: The state of stress at a point under plane stress — 40 MPа, Суу condition is Oxx 3D 100 MPа and Txy…
A: Given, Stress in x-direction = σx = 40 MPa Stress in y-direction = σy = 100 MPa Shear stress in x-y…
Q: P = 80 kN σt = 150 MPa t = 8.0782 mm Can you help me solve for d2?
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Q: is shown below, 400 300 200 100 Stress (MPa)
A: 1.Modulus of elasticity can be obtained by taking the slope of stress-strain curve in elstic…
Q: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
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Q: For the given system; a) Draw internal force diagrams and determine the most critical section. b)…
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Q: h G bị Q4) For the given system; a) Draw internal force diagrams and determine the most critical…
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Q: Q24 Find the stresses in each direction, also find the change in volume of the block of dimension…
A: Given data Where ‘T’ and ‘C’ represent tensile and compressive nature respectively.
Q: NQ1) A closed-end pressure vessel (d, = 300mm & t 10mm) is subjected to an internal pressure of…
A: Permissible stress is stress which produces due to pressure or forces which does not exceed the…
Q: shown below. Sa
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Q: 1 MPа 2- For the state of stress as shown below, 2 МPа a) Find principal stresses З МРа b) Draw…
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Q: and (b) the ratio o 3.51 Fig. shows a circular steel bar. (a) and Fig. square st T applied to them.…
A: Given:r=aπ
Q: 5. A cylindrical pressure vessel has an inner diameter of 240mm and a wall thickness of 1.5mm. If…
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Q: The state of stress at a point in a machine component is given by ox = 120 MPa, oy = 55 MPa, Oz =…
A: given; σx=120MPaσy=55MPaaσZ=-85MPaσxy=-55MPaσxz=-75MPaσyz=33MPa
Q: 3. Given a shear stress of Txy = 5000 psi and a shear modulus of G = 1.15 x 107 psi, find the shear…
A: As per our guidelines, we are supposed to answer only first one question in case of multiple…
Q: qo M h For the given system; a) Draw internal force diagrams and determine the most critical…
A: Consider horizontally forward & vertically upward force as (+)ve and horizontally backward &…
Q: QI/ for the vessel pressure shown in fig find longitudinal and hoop tensile stress in the wall…
A: Longitudinal Stress, σL = 250 MPa. Hoop Stress, σH = 500 MPa.
Q: Find the stress acting on the surface of a thin sphere of diameter 15 cm, thickness 0.25 cm and the…
A: From the given question, Diameter of the sphere = d = 15 cm Thickness of the sphere = t = 0.25 cm…
Q: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
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Q: Find the stresses in each direction, also find the change in volume of the block of dimension 120…
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Q: [MPa]; (Mega: x 10° , Pa: N/m²) σ. For the given 2D stress state a) Find the normal and shear…
A: Solution: a) From the given data using stress transformation equation,…
Q: 4. The general stress element is loaded such that ox = 30 MPa, oy = -20 MPa, Txy = 5 MPa. Using…
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Q: the maximum shear stress (in MPa) at the point is
A: Given; In a plane stress condition, Stress at a point are; σx=20 MPa σy=80 MPa σxy=40…
Q: 3. The ram of a hydraulic press 200 mm internal diameter is subjected to an internal pressure of…
A: This problem is related to the thin cylinder vessels. a cylindrical vessel or shell may be thin or…
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- The hollow drill pipe for an oil well (sec figure) is 6,2 in. in outer diameter and 0.75 in. in thickness. Just above the bit, the compressive force in the pipe (due to the weight of the pipe) is 62 kips and the torque (due to drilling) is 185 kip-in. Determine the maximum tensile, compressive, and shear stresses in the drill pipe.Q24 Find the stresses in each direction, also find the change in volume of the block of dimension 115 mm x 50 mm x 37 mm, subjected to 3 mutually perpendicular loads. The load along length, breadth and depth directions are 22 kN (tensile), 20 kN (compressive), 19 kN (compressive) respectively. Take E as 180 GPa, Poisson's ratio as 0.3Find the stresses in each direction, also find the change in volume of the block of dimension 120 mm x 60 mm x 43 mm, subjected to 3 mutually perpendicular loads. The load along length, breadth and depth directions are 10 kN (tensile), 25 kN (tensile), 13 kN (compressive) respectively, Take E as 180 GPa, Poisson's ratio as 0.3. The stress along length direction (Unit in kN/m2)= _____________ The stress along width direction (Unit in kN/m2)= _____________ The compressive stress along depth direction (Unit in kN/m2)= _____________ The change in volume of the block is (unit in mm3) = ______________
- Given data: Maximum shear stress350 MPa Maximum principal stress=80 MPa Find minimum principal stressQ2: rotor blade in a mixer. As a consequences, the shaft is suffered a compressive load of P =122 KN and a torque of T=3.4 KN.m. Determine the principle stresses , maximum shear stress 0, and 0,. The yield stress of An agitator propeller shaft of 50mm diameter is utilized to drive a the shaft is 480MPA.Consider the following plane stress state: Ox= -4 MPa, oy= 12 MPa, Txy=7 MPa ccw Calculate the following: 1. The coordinates of the center of the Mohr's circle C The location of the center of the Mohr's circle Cis MPа, MPa). 2. Principal normal stresses (01, 02) The principal normal stresses are o1 = MPa and o2 = MPа. 3. Maximum shear stress (T) The maximum shear stress is MPа. 4. The angle from the x axis to o1 (Pp) The angle from the x axis to o1 (Pp) is (Click to select) v 5. The angle from the x axis to 7 (s) The angle from the x axis to 7 (Ps) is (Click to select) v 6. The radius of the Mohr's circle The radius of the Mohr's circle is MPa. Prev 1 of 2 Next >
- Copied or wrong solution get multiple downvote for sure. 1)A cylinder with a 0.3 m inner diameter and 0.4 m outer diameter is internally pressurized to 140 MPa. Determine the maximum shear stress at the outer surface of the cylinder.Consider the following plane stress state: Ox = 10 kpsi, oy= 24 kpsi, Txy36 kpsi ccw Calculate the following: 1. The coordinates of the center of the Mohr's circle C The location of the center of the Mohr's circle C is ( kpsi, kpsi). 2. Principal normal stresses (01, 02) The principal normal stresses are 01 = kpsi and o2% = kpsi. 3. Maximum shear stress (7) The maximum shear stress is kpsi. 4. The angle from the x axis to o1 (Pp) The angle from the x axis to o1 (Pp) is CCW. 5. The angle from the x axis to T (s) The angle from the x axis to T (s) is CCW. 6. The radius of the Mohr's circle The radius of the Mohr's circle is kpsi. ...Branze steel Dia. wwwwN 50 mm. 구5. 75mm Gi 35GA 33 GPa. 60MP 2MP. bla-1.19 mm -a b Find the shear stress in steel and also the TorqueeTog- Q2/ Final the stress in Brfst steel Bronte t. 20 mm 15 mm 105 GP 200 GPa Ti=D130c T= 20 C Br st dt=600 mm F的2 ト(
- Find stress of a aluminum cylinder of diameter 12.8mm and gauge length 50.8mm. The force applied is 47,500N.Thank you for answering this question. Please you specify each step as soon as possible. Good Luck! Thank You. For a 60° angle lamina that subjected loads shown below, 15 MPa T 3.5 MPa 1.4 MPa Ox = -3.5 MPa, oy = 15 MPa, Txy = -1.4 MPa Calculate the stresses in L-T directions (ơ1, ơr, TLt) Determine whether the lamina will fail under these applied loads by using Tsai-Hill failure criteria. Determine whether the lamina will fail under these applied loads by using maximum stress failure criteria. Mechanical properties: EL = 14 GPa; ET=3.5 GPA; GLT = 4.2 GPa; vt = 0.40 Strength (In case of tension): OLU = 250 MPa, ơTu = 10 MPa Strength (In case of compression): OLU = 200 MPa, ơTu = 0.5 MPa Shear strength: TLTU = 8 MPa OT + OLu + <1 Tsai-Hill criterion: OLu - OLuConsider the 2-D state of stress shown below. Using the provided scales graph the Mohr's Circle for the 2-D state of stress with "full' details Draw the Planes of Principal and Maximum Shear Stresses Provide "full" details and Use 3 Sig. Fig. in this problem Oy = 15 Ksi Tcw → S Txy= -5 ksi Ox = 10 Ksi Tyx = 5 Ksi 10 5 -20 -10 5 10 15 20 5 10 Tccw → S'