Calculate the normal stresses (in Pa) at point A of the bracket caused by the 11023 N force.
Q: Calculate the normal stresses (in Pa) at point A of the bracket caused by the 11633 N force. - 540…
A: P= 11633 N Width of the cross section, b= 60 mm Height of the cross section, h= 180 mm
Q: A steel tube of 200 mm external diameter is to be shrunk onto another steel tube of 60 mm internal…
A: For inner tube: Write the expressions for A and B for thick cylinder. At r=0.030,…
Q: The pressure of the fluid is p N/mm2 by gauge. Determine suitable thickness of the cylinder wall…
A:
Q: Find the stresses at point C. -1.5 m 2.5 m 250 mm 125 mm 1.5 m 50 kN/m 50 mm 2 m 4m
A: Find the stresses at point C.
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: Cal culate the stress between the two rods at the weld if the weld has a radius of 0.5 inch and the…
A: Data given- For part a) Small rod Area = 1.0''× 1.5" Tensile load = 50 kips Radius (r) = 0.5 inch…
Q: Find the principle stresses at A and maximum shear stress.
A:
Q: For a closed end cylinder where the inner radius is 20 mm and outer radius is 40 mm, and the…
A: Sddd
Q: Calculate the normal stress in the copper rod if the temperature of the entire assembly is raised by…
A:
Q: A point On a free surface of a machine point (E = 214Gpa, G= 83Gpa) the stress state is shown on the…
A: GIVEN :- E = 214Gpa G= 83Gpa σy=15 MPaσx=-30 Mpaζxy=25 MPa
Q: A wooden bar is subjected to a tensile stress of 5 MPa. What will be the values of normal and shear…
A: Given data: The tensile stress in wooden bar is σ = 5 MPa. The angle between the section and the…
Q: b) For the thin walled pressure vessel subjected to an internal pressure of 150 psi and as shown…
A: Given Data Internal pressure of vessel is: P=150 psi The length of the vessel is : L ft Thickness…
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: stress in the segment QR
A: Given; A bar having cross-sectional area(A)=700 mm2Various loads at the positions indicated at the…
Q: - 540 mm 180 mm- 180 mm 60 mm → - B 30 kN
A:
Q: Plain stresses in a plain stress are; 0,=130 MPa 02=60 MPa Magnitude of the maximum shear stress is…
A: Given that σ1=130 MPa σ2=60 MPa We know that maximum shear stress is τmax=σ1-σ22
Q: 3. For the state of stress shown below, calculate the principal stresses and maximum shear stress.
A: σx = 90 Mpa σy = -60 Mpa Txy = 20 Mpa
Q: A steel pipe 1.5m in diameter is required to carry an internal pressure of 650kPa. If the allowable…
A:
Q: Calculate the normal stresses (in Pa) at point A of the bracket caused by the 11023 N force. E4.png…
A:
Q: . Find the thickness of the flat end cover plates for a 1 N/mm2 boiler that has a diameter of 600…
A:
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: Calculate the normal stresses (in Pa) at point Bof the bracket caused by the 23010N force. E4.png -…
A:
Q: b) For the thin walled pressure vessel subjected to an internal pressure of 150 psi and as shown…
A: Permissible stress is stress which produces due to pressure or forces which does not exceed the…
Q: For the thin-walled pressure vessel subjected to an internal pressure of 150 psi and as shown below,…
A: The stress that acts in parallel direction with the longitudinal axis is called longitudinal stress…
Q: A load of 7,000 N acts on the machine part shown in Fig. 5a. The machine par thickness of 15 mm…
A:
Q: For the figure shown below. Calculate the increase in vertical stresses (Ac) at point A at depth of…
A:
Q: Calculate the stress in the circumferential section of boiler steam drum 2.15 m in diameter and 45…
A:
Q: Compute the normal and shear stress on a plane which is 45° inclined from vertical axis of a…
A: Given data: - The angle of the plane with vertical axis is θ = 45o. The axial stress on the box is…
Q: Design engineers in many situations must justify their selection of material. Your role in a…
A: Pressure, P = 250 psi Thickness, t = 0.25 in Diameter, d = 1 foot = 12 in a) Longitudinal stress…
Q: b) For the thin walled pressure vessel subjected to an internal pressure of 150 psi and as shown…
A: Given data: - The pressure inside vessel is P = 150 psi. The length of the vessel is L ft. The…
Q: The 4-In. diameter shaft shown above is made from a ductile brass alloy. Which of the following are…
A: Normal Stress = Force / Cross Section Area = 4*100 / (π 4^2) = 7.957747154 Ksi Shear force is to be…
Q: A thin walled spherical shell is subjected to an internal pressure. If the radius of the shell is…
A: The formula for the hoop stress can be expressed as,
Q: Calculate the normal stress in each segment if P=375KN. The cross-sectional area for each layer is…
A:
Q: A circular rod is stretched by a force of 3kN. Solve the diameter of the rod if the stress is not to…
A: Force on rod,P=3KN=3×103NMaximum stress,σ=153MPa=153×106PaLet the diametre of rod=d
Q: Q- Compute the tensile and compression stresses for below 40 KN 120 24 KN/m C B D 2m A NA mm 5m 3m…
A:
Q: A steel rod of 25 mm diameter is fitted inside a brass tube of 25 mm internal diameter and 375 mm…
A:
Q: A compound tube of 300mm external and 100mr diameter is formed by shrinking one cylinder on te the…
A: Given:External diameter, D=300 mmExternal radius, R=150 mmInternal diameter, d=100 mmInternal…
Q: A shaft 80 mm diameter transmits the power at maximum shear stress of 63MPa. Find the length of a…
A: Given details: d=80 mmζmax=63 MPawkey=20 mmζkey=42 MPa Formula used:…
Q: Calculate the normal stresses (in Pa) at point Bof the bracket caused by the 25139 N force. - 540 mm…
A:
Q: A tractor weighing 80 kN was lifted by 3 cables as shown in the figure. Calculate the stress on the…
A: Given: W=Mg = 80 kN The given system will have four forces to be in equilibrium. The equilibrium…
Q: The section of a crane hook is rectangular in shape whose width is 30 mm and depth is 60 mm. The…
A: Given that , width = 30mm depth = 60mm centre of curvature of the section is at a distance =125 mm…
Q: Calculate the compressive stress in a 10.0 mm square rod loaded with 2250 N of force distributed…
A: Given DataF=2250Nb=10mm
Q: A cylinder having an internal diameter of 20 inches and external diameter of 28 inches is subjected…
A: di = internal diameter = 20 in do = external diameter = 28 in pi = internal pressure =8500 in σho =…
Q: A force 10N is applied to one end of a 10 inches diameter circular rod. Calculate the stress. 3.821…
A: Answer: The stress in the rod is 197.3525 N/m2.
Q: Find the normal and shear stresses acting on the surface of the joint.
A: Given Width of glued cross section = 6 in Thickness of glued cross section = 34 Applied force = 800…
Q: Calculate the principal stresses o 1 at point A of cross-section aa. Data: L = 0.3 m; F = 0.9 kN.…
A:
Q: Given sigma x=100 MPa, tau xy=50 MPa, determine stresses at an angle 30 degrees CW from x-axis.
A:
Step by step
Solved in 3 steps with 3 images
- .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°.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.Calculate the normal stresses (in Pa) at point Bof the bracket caused by the 23010N force. E4.png 540 mm A 1. 180 mm 180 mm B 60 mm → - 3 4 P Your Answer: -11,078,888.8888889
- A pipe has an outside diameter of 0.7 inches and inside diameter of 0.12 inches. A force of 411 lbs is applied at the end of a 1.7 in lever arm, causing the pipe to twist. What is the maximum stress in the pipe in psi? 20,766.9 Correct Answer: 124,6013. Listed below is a combination of stresses acting at a point and referred to axes x and y in an elastic material. Using Mohr’s circle of stress determine the principal stresses at the point and their directions for each combination. 1}sigmax -60 n/mm2 , sigmay -36n/mm2 ,TAUxy=5n/mm2 2}}sigmax 30 n/mm2 , sigmay -50n/mm2, TAUxy= 30n/mm2A steel pipe with an outside diameter of 115 mm and an inside diameter of 105 mm supports the loadings shown. Assume a = 510 mm, b = 230 mm, Px = 20 kN, P, = 16 kN, and P, = 11 kN. (a) Determine the normal and shear stresses on the top surface of the pipe at point H. (b)Determine the principal stresses and maximum in-plane shear stress magnitude at point H and show the orientation of these stresses on an appropriate sketch. a |P, y P: P H K
- A plane stress state is given by the principal stresses σx =25 MPa and σy= -11 MPa. Determine σx' in the case that the system is inclined by 30 degrees (counter-clockwise). Give your answer in MPa to the nearest whole number.The rod has a diameter of 40 mm. It is subjected to the force system Fx 1300 N, Fy = 600 N, F₂ = 900 N. (Figure 1) Figure F Fy 300 mm 100 N-m 100 mm B 1 of 1 x Part A Determine the normal stress that acts at point B. Express your answer to three significant figures and include the appropriate units. Enter negative value in the case of compression and positive value in the case of tension. OB = Submit Part B (TB) xy Submit ☐ Part C O μĂ Value Determine the shear stress (TB) xy that acts at point B. Express your answer to three significant figures and include the appropriate units. Correct (TB)xz Request Answer = 0 MPa Previous Answers Units Determine the shear stress (TB) xz that acts at point B. Express your answer to three significant figures and include the appropriate units. μĂ Value ? MPa Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts remaining ? <For the plane-stress condition given below: σx = 400 MPa σy = 500 MPa τxy = - 30 MPa Construct a Mohr’s circle of stress, find: (a) the principal stresses and the orientation of the principal axes relative to the x,y axes (b) determine the stresses on an element, rotated in the x-y plane 60° counter?clockwise from its original position ; Show these stresses on a sketch of an element oriented at this angle (c) Also, using the matrix transformation law to compare the solutions with Mohr’s circle
- 2. Determine the state of stress at point H. Each section of the pipe has an inner and outer diameter of 36 mm and 44 mm, respectively. Indicate your final answers on the given volume element. Be sure to clearly indicate the direction of your assigned internal loadings in a valid FBD. 200 N 225 150 N 300 30 H 175 100 N 100 N 100 N Dimensions in mmA body is subjected to multiple applied loads. The resultant stress at point location (0, 1, 4) meters can be described as or = -5 MPa. Which of the following describes t stress state at this point? Biaxial tension Uniaxial compression Pure shear Uníaxial tensionA state of stress at a point A is given by σx = -75 MPa, σy = 122 MPa, and τxy = -3.75 MPa. Which of the following is one of the principal stresses for the point A.