A cast iron link has dimension of 40 x 200 x 500 mm as shown in the figure. The compressive load P = 400 kN is applied to the ends of the link along a longitudinal axis that is located 150 mm above the bottom of the link (50 mm above the neutral axis). Determine the normal stress developed at the bottom surface point A. 50 mm NA- 150 mm 200 mm A 500 mm 40 mm
Q: 75 mm When a force P of 750 N is applied to the pedal shown in the figure, find the diameter (mm) of…
A: Given data: The applied force, P = 750 N. The shear stress in the pin, τ = 40 MPa. Draw the…
Q: Determine the maximum tensile and compressive stresses in portion BC of the beam, under loading…
A: It is assumed that Compressive stress developed in the top section. Also tensile stress in the…
Q: A steel bar with length of 4.5 m is subjected to forces as shown in the figure: 1. Determine the…
A:
Q: An axial load P is supported by the short steel column shown in the figure. The column has a…
A: Given that, Axial load = P Cross-sectional area of column = Acolumn=13,300 mm2 Allowable average…
Q: A force of 40 kN is applied to the edge of the member shown in Figure below. Neglect the weight of…
A:
Q: 9. A rod has three segments as shown in the figure. The position of applied loads and diameter of…
A:
Q: The solid 1.25-in.-diameter rod shown in Figure is subjected to a uniform axial distributed loading…
A:
Q: QUESTION 4) For the given system shown in the figure, the AB bar is in the 4m direction of z-axis…
A: Given: The diameter of OB and AB, D = 100 mm = 0.1 m The radius of disc, r = 0.5 m The allowable…
Q: For the assembly shown in the figure below, Determine the state of stress at point A on the cross…
A: To find: The state of stress at point A on the cross section of pipe at section a-a. Given: The…
Q: The stress-strain diagram for a steel alloy having an original diameter of 0.40 in. and a gage…
A:
Q: The figure below are 2 solid cylindrical bars joined together at point B. Find the required minimum…
A:
Q: For the plane truss shown in the Figure (a) Determine the displacements of nodes and (b) The…
A: Given: To find: Displacements of nodes
Q: A two-step bar subjected to loading condition as shown in below figure is fixed at one end and the…
A:
Q: For the assembly shown in the figure below, Determine the state of stress at point A on the cross…
A:
Q: A column has a square cross-section that increases by depth from 0.5 m to 1 m. If the column has a…
A: W are to derive the normal stress on section aa
Q: 3. The bar in the figure is connected to the support using a pin having a diameter of 1.25 in. If…
A: As per given question Diameter of pin =1.25in Axial stress of bar =18 ksi Bearing stress =28ksi We…
Q: The figure shows a cross section of simply supported beam with a uniformly distributed load of 4.8…
A:
Q: The rectangular bar is connected to the support bracket with a circular pin, as shown in the figure.…
A: To Find : The average bearing stress produce in the bar . Given : The width is w=2.25 in. The…
Q: For the pressure vessel in which the loading condition is seen in the figure determine the maximum…
A: Note: the stress values are calculated for the point “a” on the top of the cylindrical pressure…
Q: 20 KN / m 5 KN / m A B SIMPLE STRESSES 5 KN / m D 50 KN-m 5 KN / m F 2. Points C and D of the 1.00…
A: according to the given details
Q: The built-up shaft in figure consists of a pipe AB and a solid rod BC. The pipe has an inner…
A: Given : outer diameter of pipe AB, Do = 28 mm inner diameter of pipe AB, Di = 20 mm diameter of rod…
Q: The coupling as shown in figure is made from steel has rectangular cross section is designed to…
A:
Q: The rectangular wood panel is formed by gluing together two boards along the 30-degree seam as shown…
A:
Q: Q1/ The aluminum bar has been subjected to axial loads at the positions shown in Figure below.…
A:
Q: A circular bracket with a diameter of 100 mm is fixed to a wall as shown in the figure below.…
A:
Q: The tank shown in the figure shown is fabricated from a steel plate. a. Determine the maximum…
A:
Q: Vertical load is applied to point B of a 10 mm radius cylindrical bar as shown in the figure.…
A:
Q: 2. From the system shown in the figure, obtain the forces and the average axial stress on each bar…
A:
Q: 0.8 m 0.4 m В 0.6 m 1.6 m P = 1.2 kN 2 m The rigid beam AB is hinged to a support at A and supported…
A: Suppose angular displacement of beam is δθ; then, stretch in wire C and D are 0.6 x δθ & 1.6…
Q: QUESTION 1) A channel type cross-section is subjected to the compression force P-20 kN at the point…
A: The section is as shown below, The area of the section is, A1=20×5=100 cm2A2=20×5=100…
Q: When there is a plane stress condition as shown in the figure, display this stress in the form of…
A:
Q: The above figure is a section of a column. If the said column is subjected to an axial load of FN x…
A:
Q: A rod is composed of copper and steel section rigidly bolted in the wall as shown in the figure. If…
A:
Q: A bolted connection between a vertical column and a diagonal brace is shown in the figure below. The…
A:
Q: An axial load Pis supported by the short steel column shown in the figure. The column has a…
A: Cross sectional area of the column, Acolumn= 16200 mm2 Average normal stress in the steel column,…
Q: Observe the figure below. Determine the following: a. axial stress on the shank if the load applied…
A:
Q: Determine the total stress at point A on the cross section a-a in the figure below. 400 kN la -0.5…
A: Draw a diagram showing the neutral axis for the above-cross section.
Q: For the assembly shown in the figure below, Determine the state of stress at point A on the cross…
A: To Find : The state of stress at point A Given : The length is a=220 mm. The length is b=120 mm.…
Q: O1: Two steel pipes [E =200 GPa], each with a cross- sectional area of 1475 mm', are attached to…
A: GIVEN DATA AREA A=1475 mm2 E=200GPa LOAD=120KN WE HAVE TO FIND STRESS IN BOTH PIPES
Q: If the wood joint in Figure has a thickness of 150 mm, determine the average shear stress along…
A: 2F = 6 ⇒F=3×N=Vb Therefore, Average shear stress along a-a plane =3×103150×100…
Q: Q1/ The aluminum bar has been subjected to axial loads at the positions shown in Figure below.…
A:
Q: The wire BC has a diameter of 3.4 mm and the material has the stress-strain characteristics shown in…
A: Diameter of wire BC, d= 3.4 mm Length of wire BC, LBC= 1000 mm Length AB, LAB =1250 mm Length AD,…
Q: Answer the attached file
A: Assume allowable stress for the wood as σw=1200 Psi The allowable load for the wood P=1200 psi×4…
Q: A uniform bar AB weighing 500 kg is supported at both end by a cable as shown in the figure.…
A:
Q: The round bar ABD of 12 mm diameter is fixed to the wall at its left end and has two arms BE and DC…
A: Diameter of bar = 12 mm. It has two arms at a distance of 55 mm and 95 mm from fixed end Arm length…
Q: The small steel plate is connected to the right angle bracket by a 10 mm diameter bolt (Figure…
A:
Q: An axial load P is supported by the short steel column shown in the figure. The column has a…
A: Given:A=14,300 mm2σs=73 MPaσb=9 MPab=435 MPa
Q: 10 cm 600 N 14 cm B -- Vertical load is applied to point Bof a 10 mm radius cylindrical bar as shown…
A: Given data: Radius of the cylindrical bar is: r=10 mm which is fixed at point 'C'. We need to find…
Step by step
Solved in 2 steps with 2 images
- A simply supported beam is subjected to point load P at mid-span. The normal stress on an element at mid-span is known to be ??x= 1.5 ksi. Determine the element stresses lilt is rotated through angle ? = 450• Show these stresses on a sketch of an element oriented at that angle.A short column with a wide-flange shape is subjected to a compressive load that produces a resultant force P = 55 kN acting at the midpoint of one flange (see figure). Determine the maximum tensile and compressive stresses asand o^., respectively, in the column, Locate the neutral axis under this loading condition. Recompute maximum tensile and compressive stresses if a 120 mm X 10 mm cover plate is added to one flange as shown.-27 A square plate with side dimension of 2 in. is subjected to compressive stress a and tensile stress The stresses on element A oriented at angle ?? x1=45° aresy1= 75 psi. tx1y1= 275 psi. . Find the state of stress on the element lilt is rotated clockwise to align the x3 axis with the horizontal x axis.
- .4 The stresses on an clement arc known to be sx= 120 MPa, sy= 100 MPa, and txy= 75 MPa. Find the stresses on an inclined section through the element at an angle ? = 45°.-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. aA steel bar has a square cross section of width b = 2.0 in. (sec figure). The bar has pinned supports at the ends and is 3.0 ft long. The axial forces acting at the end of the bar have a resultant P = 20 kips located at distance e = 0,75 in, from the center of the cross section. Also, the modulus of elasticity of the steel is 29,000 ksi. Determine the maximum compressive stress max, in the bar. If the allowable stress in the steel is 18,000 psi, what is the maximum permissible length Lmaxof the bar?
- A spherical balloon is filled with a gas. The outer diameter of the balloon is 20 in. and the thickness is 0,012 in. Calculate the maximum permissible pressure in the balloon if the allowable tensile stress and the allowable shear stress in the balloon are 1 ksi and 0.3 ksi, respectively.A short column constructed of a W 12 × 35 wide-flange shape is subjected to a resultant compressive load P = 25 k having its line of action at the midpoint of one flange (see figure). Determine the maximum tensile and compressive stresses d1and d2., respectively, in the column. Locate the neutral axis under this loading condition. Recompute maximum tensile and compressive stresses if a C 10 × 15.3 is attached to one flange, as shown.Repeat the previous problem using ? = 50° and stresses on the rotated element: sy1= 70 MPa, ??y1=-82 MPa, and tx1y1=-35 MPa.
- Determine the maximum tensile, compressive, and shear stresses acting on the cross section of the tube at point A of the hitch bicycle rack shown in the figure. The rack is made up of 2 in. x 2 in. steel tubing which is 1/8 in. thick. Assume that the weight of each of four bicycles is distributed evenly between the two support arms so that the rack can be represented as a cantilever beam (ABCDEF) in the xy plane. The overall weight of the rack alone is W = 60 lb directed through C, and the weight of each bicycle is P = 30 lb.A circular post, a rectangular post, and a post of cruciform cross section are each compressed by loads that produce a resultant force P acting at the edge of the cross section (see figure). The diameter of the circular post and the depths of the rectangular and cruciform posts are the same. For what width b of the rectangular post will the maximum tensile stresses be the same in the circular and rectangular posts? Repeat part (a) for the post with cruciform cross section. Under the conditions described in parts (a) and (b), which post has the largest compressive stress?The stresses acting on an element are x= 750 psi, y= 600 psi, and xy = 400 psi. Determine the principal stresses and show them on a sketch of a properly oriented element.