Normal stress maximum
Q: Determine the stress increase at
A:
Q: maximum normal stress that occurs
A:
Q: Determine Value of x if the Normal stress at rod is equal to the stress at rectangular pipe
A: take stresses in Rod and Pipe as Equal Take sum of forces as 8KN Take moment about rod as 0
Q: A steel column has a cross-sectional area of 0.126 m^2 and a length of 3 m. If a 50000 KN load is…
A: Given data, Cross sectional area of column = 0.126 m^2 Load on column F = 50,000 kN = 50 MN Length L…
Q: mine the normal stress in a ball, which has an outside diamete d to a gage pressure of 66 kPa. er:0,…
A:
Q: determine the normal stress at bar AC use diameter of bar ac=215 mm
A:
Q: The shear strength parameters scaled off mohr's circles in lab 5 were 27° and 16 kPa. Compute the…
A: ϕ = Angle of internal friction = 27°c = Cohesion = 16 kPaσc = σ3 = Cell pressure = 304 kPaTo find…
Q: normal stresses of 0 and 10 MPa (T)
A: Given:A rod element is oriented orthogonally to the horizontal and verticalσx=0 MPaσy=10 MPaτxy= 6…
Q: ! Required information Consider the given state of stress. Take A= 16 MPa and B= 55 MPa. B 60 MPa…
A:
Q: Find the value of maximunm principal stress Maximum shear stress-40 MPa Minimum principal stress=20…
A:
Q: TRUE STRESS STRAIN CUI
A: A stress-strain curve for a material is used in engineering and materials science to show the…
Q: a) Compute the internal stress at the bottom of the tank (in psf). b) Determine the tensile stress…
A: ##solution of a Given problem ## internal stress at bottom of tank , tensile stress at top and…
Q: Which of the following is known as the unequal stress? Select one: a. Differential Stress b.…
A: In Differential Stress unequal Stress due to tectonic forces . But in other two option equal stress…
Q: The effective stress
A: Given data, Vertical pressure,P= 50 kN/m3 pore water pressure immediately on increasingthe vertical…
Q: Maximum principal stress
A: Given data : The value of normal stress in X direction σX=55 MPa The value of normal stress in Y…
Q: assumption of area of the particle-to-particle contacts i
A: This question has been derived from geo technical engineering and the explanation is given below
Q: Solve this early all subparts B) determine the principal plane (for σmax) in radians. C) Determine…
A:
Q: determine the maximum tensile stress (MPa) developed in the plate.
A:
Q: verage normal stress is 120 MPa, find the maximum I in. in. 3 in 2 in. 4 in. 1 in. 3 in 2 in. xLin.
A: To find the maximum value of P-
Q: The normal stress at point A equals to The shearing stress at point A equals to
A: Given:-Two posts connected as shown below Required: To find a) Normal stress at point A and b)…
Q: The principal stress for machine component boiler are , 0.5 and 0. If yield stress is found 240MPa…
A:
Q: A stepped circular shaft fixed at one end is subjected to two axial forces as shown below. The…
A:
Q: an outside diameter of 600 mm has a wall thickness of 8 mm. The tank is used sure of 2.2 MPa. rmine…
A:
Q: H WW For The Stress state shown, find The principle stresses and Their directions 30Mpa 50 mpa
A:
Q: The vertical surface stress is 100 kPa. The stress increase (kPa) at A is 2m 100 kPa 2m 2m A 1m 19.3…
A:
Q: ind the maximum flexural stress in the bottom material.
A: GIven Data :- M = 6.5 kN-m b=175 mm t bottom = 200 mm Flexural stress = M * y / I I = 175 *200 ^3 /…
Q: An 8-mm thick steel tank has an outside diameter of 600 mm. It is subjected to an internal pressure…
A:
Q: A steel cylinder is 160 mm ID and 320 mm OD. If it is subject to an internal pressure of 150 MPa,…
A: The stress generally acting in thick cylinder in horizontal direction is known as tangential…
Q: Follow-up questions. Rate will be given! c. Calculate the maximum tensile stress in ksi. d.…
A: Solution: Given: M = 3000 kip-in a = 4 inch
Q: Shear stress-induced in a shaft subjected to tension will be Maximum at periphery and zero at center…
A: This question is related to Torsion from Strength of Material.
Q: 1 MPа 4 MPa 5 MPa state of plane stress
A:
Q: The vertical surface stress is 100 kPa. The stress increase (kPa) at A is 100 kPa 2m 2m 2m 4.4 O 20…
A:
Q: Determine whether the following strain fields are possible in a continous body. [z(x² + y²)_2xyz y?…
A: Strain fields are given in the question . Whether stain fields are possible or not in a continuous…
Q: An 8-mm thick steel tank has an outside diameter of 600 mm. It is subjected to an internal pressure…
A: HOOP STRESS AND LONGITUDNAL STRESS IS TO FIND OUT
Q: The vertical surface stress is 100 kPa. The stress increase (kPa) at A is 2m 100 kPa
A:
Q: Find the mayeimum bending stress 75 M/m 60 Nim 5m ØIcm
A: The stress developed in the member due to the bending action or the bending moment acting on the…
Q: The state of stress at a point in a machine component is given by o, = 120 MPa, o, = 55 MPa, G = -85…
A:
Q: For a cylindrical pressure vessel, the normal stress comp longitudinal section is known as O Axial…
A: The normal stress component on a longitudinal section is known as longitudinal stress. It is tensile…
Q: Which of the following is NOT TRUE for a state of stress at point for a thin spherical pressure…
A:
Q: A) Determine the lateral strain B) Determine the axial strain C) determine the poisson’ts ratio V.
A: Given - Change in length = △L = .115inGauge length = L = 2.20in.Decrease in thickness = △D =…
Q: m AB. The cross-sectional area of the bar is 580 mm2. If the stress in the
A:
Q: The principal stress for a machine boiler are sigma , 0.5 sigma and 0. If yield stress is 240. Find…
A: The failure theories with respect to different failure conditions and type of material are Maximum…
Q: e at which the stress will be zero (in degree ponse:
A:
Q: Determine the outside diameter of hallow steel tube that will carry a tensile load of 500kN at a…
A: The stress is load per unit area. The area is surface which is exposed to load. The units of stress…
Q: Describe a procedure for triaxial testing that raises the deviatoric stress while the nondeviatoric…
A: Brief concept introduction- A triaxial test is used to assess the shear strength of a cylindrical…
Q: A hollow steel tube with an inside diameter of 80 mm must carry an axial tensile load of 330 kN. If…
A: Tensile load on the tube (P) = 330kN Outer diameter of tube (d0) = 100mm or 0.1m Inside diamter of…
Q: a. Major Principal Stress in psi. b. Minor Principal Stress in psi. c. Normal Stress at Failure…
A:
![A rod of a variable cross-section shown in the following figure is subjected to two axial forc
The rod has a circular cross section.
a) Find the maximum normal stress.
4 cm
70 kN
40 kN
2 cm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F18bb3112-f02e-4a0e-b6d8-ba652f19af91%2F5d84db54-3ba5-41f8-a703-c84187d38697%2Ftxhx8ve_processed.jpeg&w=3840&q=75)
![](/static/compass_v2/shared-icons/check-mark.png)
Trending now
This is a popular solution!
Step by step
Solved in 4 steps
![Blurred answer](/static/compass_v2/solution-images/blurred-answer.jpg)
- The 4000 mm long eyebar BC shown in the figure has an outside dimension of 80mm x 40mm and a uniform thickness of 7mm. length of AB = 2.5m a. Calculate the maximum value of W if normal stress in BC is 30 mPab. If W is 100 kN, what is the stress at AB with 200mm2 cross sectional areaThe channel shape cross-section and the rectangular cross-section shown in the Figure Q4 are made of materials with elastic-perfectly plastic behaviour. The yield stress of the material used for the channel shape cross-section is y=405 MPa, whereas that used for the rectangular cross- section is 0.850y. Compute the thickness of the web, t, of the channel shape section if the two cross sections have identical plastic bending moment about the z-axis. In Figure 4, h= 74 mm, b=52 mm, a-8 mm, H=74 mm, d= 52 mm Z b h Figure Q4 Z d HThe bar ABC in the figure consists of two cylindrical segments. The material of the bar has the stress-strain diagram shown. Calculate the elongation in segment BC caused by the 60-kN axial load.
- The rectangular plate is subjected to force P that causes elongation in the horizontal direction and shrinking in the vertical direction as shown with the dashed line in the figure. Assume a = 550 mm, Δx = 2 mm, and Δy = 1.1 mm. Determine the shear strain γxy at point A?in micro rad Determine the shear strain γnt at point A?in micro rad What is the normal strain in the x-direction?micro£The bar ABC in the figure consists of two cylindrical segments. The material of the bar has the stress-strain diagram shown. Calculate the strain in segment BC caused by the 60-kN axial load. Calculate the elongation in segment AB caused by the 60-kN axial load.2.25. A system consists of two rigid end-plates, tied together by three horizontal bars as shown in Fig. 2-42. Through a fabrication error, the central bar, ②2, is 0.0005L too short. All bars are of identical cross section and of steel having E = 210 GPa. Find the stress in each bar after the system has mechanically been pulled together so that the gap A is closed. Ans σ-35 MPa σ = 70 MPa Fig. 2-42
- The solid rod shown in the figure is of diameter d 15 mm and passes through a hole of diameter D 20 mm in the support plate. When a load P is applied to the rod, the rod head rests on the plate, which has a thickness b 12 mm. The rod head has a diameter a 30 mm and a thickness t 10 mm. If the normal stress produced in the rod by load P is 225 MPa, determine (a) the average bearing stress MPa acting between the support plate and the rod head. (b) the average shear stress MPa produced in the rod head. (c) the punching shear stress MPa produced in the support plate by the rod head.1) The state of plane stress at a point is shown on the element in Figure. Determine the maximum in-plane shear stress at this point. B 50 MPa ox Ox= -80 MPa = +50 MPa Oy Txy = -25 MPa 80 MPa 80 MPa A 25 MPa Ľ 50 MPaA rígid steel bar is supported by three rods as shown. There is no strain in the rods before the load P is applied. After load Pis applied, the normal strain in rods (1) is 2120 μm/m. Assume initial rod lengths of L1 = 1,250 mm and L2 = 2,000 mm. Determine the normal strain in rod (2). (1) (2) Rigid bar 1325 μm/m O 1546 μm/m O 1790 μm/m 1712 μm/m 1435 μm/m P L₂ O (1)
- The thin-walled tube is used as a beam to support the uniformly distributed load of intensity w, as shown in the figure. a) Determine the largest allowable value of Wo if the working stress in bending is 100 MPa. b) Determine the maximum shear stress in the beam Wo -200mm V O A OC 195mm 1.2m B 2.4mThe rectangular plate is subjected to force P that causes elongation in the horizontal direction and shrinking in the vertical direction as shown with the dashed line in the figure. Assume a = 550 mm, Δx = 2 mm, and Δy = 1.1 mm. What is the normal strain in the y-direction? What is the normal strain in the n-direction?in micro£The rectangular plate is subjected to force P that causes elongation in the horizontal direction and shrinking in the vertical direction as shown with the dashed line in the figure. Assume a = 550 mm, Δx = 2 mm, and Δy = 1.1 mm. Determine the shear strain γxy at point A? Determine the shear strain γnt at point A? In micro rad What is the normal strain in the x-direction? What is the normal strain in the y-direction? What is the normal strain in the n-direction? Answer in clear way please
![Principles of Foundation Engineering (MindTap Cou…](https://www.bartleby.com/isbn_cover_images/9781337705028/9781337705028_smallCoverImage.gif)
![Principles of Foundation Engineering (MindTap Cou…](https://www.bartleby.com/isbn_cover_images/9781337705028/9781337705028_smallCoverImage.gif)