For the element shown find 1) Principle stresses and their direction 2) Shear stresses and their direction 300MPA 200MPA 300MPA
Q: A) Find the principal Stresses B) Find the Maximum Shear Stress 30 MAa $45 MPa 60 MPa
A:
Q: Oy Txy
A: given; normal stress in x direction =σxnormal stress in y direction =σyshear stress in xy…
Q: Find the stresses at points A andB on the plate shown in the figure.
A: The normal stress at the points A and B can be determined as,
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: For the following data, using the stress-transformation equations. (a) find the principal stresses…
A: Given Data 20 -20-20 -10 To find (a) find the principal stresses and show their sense…
Q: Find the shear stress in 10 mm diameter shaft subjected to 2 kW power transmission at 100 rpm.
A: Given data:
Q: A member is subjected to a major stress of 110 MPa (tensile), minor stress of 40 MPa (compressive)…
A:
Q: A lamina is subjected to normal stresses along x axis 50 N/mm 2 and y axis 75 N/mm 2. Find the…
A:
Q: Principal stresses:σ1=31.69 MPa σ2=−30.56 MPa Maximum in−plane stress: σmax=31.69 MPa
A:
Q: A 75mm shaft is subjected to 5KN-m torque. Find the stress developed in MPa.
A: Dear student, there are multiple question and we are suppose to solve only one question. Also in…
Q: Forces are applied as shown at point D of the steel post shown.Since the diameter of the pole is 60…
A:
Q: as given below 80 mm a) Normal and shear stresses occurring at point A Find and show it on the plane…
A: Given: The diameter of the shaft, d = 20 mm = 0.02 m
Q: Consider a point in a structural member that is subjected to plane stress. Normal and shear stresses…
A:
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: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
A:
Q: Find the value of maximum principal stress Maximum shear stress=80 MPa Minimum principal stress=30…
A:
Q: A lamina is subjected to normal stresses along x axis 50 N/mm 2 and y axis 75 N/mm 2 Find the normal…
A:
Q: Q4. The stresses at a point in a component are 160 MPa and 60 MPa both tensile. Find the intensities…
A:
Q: Find the maximum shear stress for the stress case given in the figure.
A: Given Data The stress acting in x direction is: σx=100 MPa The stress acting in y direction is:…
Q: 1 MPa 2- For the state of stress as shown below 2 MPa a) Find principal stresses З МРа b) Draw…
A: Given:σx=3 MPaσy=1 MPaζxy=2 MPa
Q: 80 MPa 60 MPa
A: Consider the given plane figure on x-y plane. From the figure, Stress in x direction = σx = 0 MPa…
Q: Oy = 90MPA %3D Try 60MPA %3D Ox=20MPA
A: Given Data Normal stresses σx= 20MPa σy=90MPa Shear stress fxy=60MPa Main stresses are the…
Q: The principal stresses at a point in a solid are o,=56Mpa, o,=35Mpa, and o3=14Mpa. Using Mohr's…
A:
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: Consider a point in a structural member that is subjected to plane stress. Normal and shear stress…
A:
Q: 60 MPa 30 MPa 45 MPa
A: On the given element, Stress in x direction = σx = 45 MPa Stress in y direction = σy = -60 MPa…
Q: A shaft is required to transmit power 1MW at 240r.p.m. The shaft must not twist more than 1 degree…
A:
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: Find the principal normal stresses and their directions that will occur in case of stress in the…
A:
Q: A circle of 250 mm diameter is scribed on a steel plate. The plate is subjected to a tensile stress…
A:
Q: Find normal stresses and shear stress at the given inclination ..using mohr circle
A:
Q: (320) mm inside diameter and (64) mm thickness is subjected to an internal pressure of 15 MPa. Find…
A:
Q: Problem 3: For the plane stress state listed below, draw a Mohr's circle diagram properly labeled.…
A: Given: Normal Stress on x-axis, σX=16 kpsi Normal Stress on y-axis, σY=9 kpsiShear Stress, ζXY=5…
Q: For the stress state: Oz = 30 ksi, oy = 40 ksi, Try = -10 ksi a. Find the principal stresses and…
A:
Q: A lamina is subjected to normal stresses along x axis 50 N/mm 2 and y axis 75 N/ Find the normal and…
A: To find normal and tangential stress
Q: Draw the Mohr's Circle (Fig. 3) as accurately as possible on a graph paper. (a) Using equation find…
A:
Q: 100 МPа 50 MPa 25 MPа 1) Sketch the Mohr's circle approximately to scale for the stress element. 2)…
A:
Q: Find the maximum shear stress at a plane if the major and minor principal stresses at a point are 3…
A:
Q: Q4: For the figure below, determine the principal stresses and show them on a sketch of a properly…
A: Normal stress is defined as the intensity of force exerted over a unit cross sectional area which…
Q: a shaft 80mm diameter transmits power at maximum shear stress of 63 mpa. find the length of 20mm…
A: given; →diameter(d)=80mm→for power transmission on shaft shear…
Q: For thin walled pressure vessel: Inner radius =50 cm P' Wall thickness =3 cm P=P'= 0 kN Gage…
A:
Q: Q2) Look at the Mohr Circle and find (the scale is 1 cm-10 MPa) 1. Normal and shear stress at points…
A: Since we only solve upto three subparts at a time, we will solve the first three. Please specify the…
Q: Find the cross sectional area if applied force is 26 N and stress produced is 60 N/mm2
A: Given data : Applied force F=26 N Stress produced σ=60 N/mm2 To find : Cross sectional area
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: Q1. Find the shear stress in aluminum and Steel TAl, TS Use: Gsteel = 85 GPa, GAI= 30 GPa
A:
Q: 1. For the two cases i.e. (a) 2D and (b) 3D shown below, find the principal stresses, maximum shear…
A: a) The given values are - σx= 60MPa , τxy=40 MPa , σy= 0 The principal stresses are given by - σ1,…
Q: The hollow circular pipe is subjected to two forces P=1800 and F=2500. Inner and outer radius of the…
A: Force P will apply normal stress and bending stress at fiber A of the hollow pipe where as force F…
Step by step
Solved in 2 steps with 4 images
- 1. Find the average normal stress. 2. Find the maximum in-plane shear stress.Find the velocity and shear stress equations..Mohr's Circle At a point, the normal and shear stresses acting on one plane are 8000 psf compression and 2000 psf, respectively. On a perpendicular plane, the normal and shear stress combination is 2000 psf compression and 2000 psf. (a) Draw the Mohr's circle. (b) Determine the value of the principal stresses. (c) Find the angle between the plane on which the 8000 psf compressive stress acts and the major principal plane. (d) What is the maximum shear stress acting at the point? kindly answer the following with a complete solution so that i can understand how to solve it. thank you
- 2. The Principal stresses at a point across two perpendicular planes are 90MN/m² (tensile) and 40MN/m² (compressive). The shear stress across these planes is 25 MN/m² (counter clockwise). Find the normal, tangential and the resultant stress & its inclination on a plane making an angle of 35° with the plane of first stress.The principal tensile stress at a point across two mutually perpendicular planes are 100 N/mm2 and 40 N/mm2. The normal, tangential and resultant stresses on a plane inclined at 20° to the axis of the minor principal stress by analytical method isMechanics Lesson: Forces are applied as shown at point D of the steel post shown.Since the diameter of the pole is 60 mm, find the principal stresses at point H and the maximum shear stress.
- At a point in an elastic material under strain, the stresses on the three mutually perpendicular planes are as follows:A normal tensile stress of 60 N/mm^2and shear stress of 40 N/mm2 on one plane and a normal tensile force of 40 N/mm^2and a complimentary shear stress of 40 N/mm^2 on another plane. Find the following using Mohr circle only (take 5 N/mm2 = 1 cm)a. The principal stresses and principal planes.b. The maximum shear stress and its plane.c. The normal and shear stress on a plane inclined at an angle of 30Oto major principal plane.stress element x=21Mpa, y=11Mpa, xy=8, angle=50 degrees using the arithmetic method and Moore's circle 1) Find the main stresses, their directions, and be the maximum shear stresses ) Find the maximum and minimum stresses when rotating at the given angle in the positive directionMechanics of Materials Two forces are applied to the 100 mm diameter plate attached to the 40 mm diameter solid AB shaft. Find a) the principal stresses and principal planes, b) the maximum shear stress at point H.
- Compute: a.) The maximum shear stress developed in a 6 inch diameter solid steel shaft that transmits 600 HP at a speed of 80 rpm. b.) The shear stress if the speed were increased to 300 rpm. Answers: a.) 11,146psi b.) 2,972 psi I'm unsure of how to solve this problem. Please help me understand how to solve for these answers ste-by-step. Thank you in advance.Use Mohrs circle to find the principle stresses and determine the normal and shear stresses acting on a plane 45 degrees counter clockwise from the Y-plane. Sketch showing the exterior stresses.The normal and tangential stresses on a plane inclined at 30° to the axis of the minor principal stress are 75 N/mm2 and 20 N/mm2. The resultant stress on a plane by analytical method is