The horizontal pipe shown in Figure 2 has a hollow circular cross section of 38mm inner- diameter and 50mm outer-diameter. Determine the principle stresses (Gmax and omin) and maximum shear stress (Tmax) at points A and B on the cross section of the pipe at section a-a. As shown in Figure 2, point A is located on y- axis and the inner surface of the pipe while point B is located on z-axis and the outer surface of the pipe. 19 mm E=200 N 25 mm Section a-a 250 mm 300 mm

The horizontal pipe shown in Figure 2 has a hollow circular cross section of 38mm inner- diameter and 50mm outer-diameter. Determine the principle stresses (Gmax and omin) and maximum shear stress (Tmax) at points A and B on the cross section of the pipe at section a-a. As shown in Figure 2, point A is located on y- axis and the inner surface of the pipe while point B is located on z-axis and the outer surface of the pipe. 19 mm E=200 N 25 mm Section a-a 250 mm 300 mm

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: A compound shaft consists of segment (1), which has a diameter of 1.25 in., and segment (2), which…

A: Given data: A compound shaft segment (1) has a diameter of 1.25 in. A compound shaft segment (2) has…

Q: The rotor shaft of a helicopter (see figure part a) drives the rotor blades that provide the lifting…

Q: Q3) A rectangular rosette is mounted on a steel plate having E = 29 × 10° psi and µ = 0.3. The th…

A: GivenE=29×106 psiμ=0.3ε1=+500 μ in/inε2=+400 μ in /inε3=-100 μ in/in

Q: A cross section of the leading edge of an airplane wing is shown in the figure. The enclosed area is…

A: Given : A = 82 in2 T = 100 kip.in

Q: The hollow drill pipe for an oil well (see figure)is 6.2 in. in outer diameter and 0.75 in. in…

A: Given Outer diameter = 6.2 in Thickness = 0.75 in Weight = 62 kips Torque = 185 kip-in To find…

Q: 7.3-17 The stresses at a point along a beam sup- porting a sign (see figure) are o = 2250 psi, =…

Q: The solid shaft shown in the figure below is fixed at one end and has a lever at the other. The…

A: Given data, Applied force, F = 840 N Distance, b = 110 mm Shear stress induced at point A on the…

Q: Complete answer

A: Given Data: Diameter of OB and AB (D) = 100 mm = 0.1 m Radius of disc (r) = 0.5 m Allowable normal…

Q: A roadway sign weighs 5 kN and is supported by a structural pipe that has an outside diameter of 295…

Q: The 40-mm diameter solid shaft ACBD is supported by two bearings at A and B. Due to the transmission…

Q: Determine the maximum value of Qof the Transverse Shear Stress formula [T = (VQ)/(It)] at point p in…

Q: A sign is supported by a pipe (see figure)having an outer diameter 110 mm and inner diameter90 mm.…

A: Given that, Outer diameter of pipe, do=110 mm,Inner diameter of pipe, di=90 mm,Wind pressure, P=1.5…

Q: A typical aluminum-allóy scuba diving tank is shown in thế ngure. The outside diameter óf the tank…

A: Solution:

Q: I can't seem to find the shear stress at point b. Here's my work for reference.

A: Given-Information: L1=32ftL2=9.3ftL3=14.4ftp=13.5lb/ft2do=9.5int=0.31in To-Determine: Stress at B,…

Q: A. It is the torsional parameter equal to twice the product of the area enclosed by the centerline…

Q: Consider the circular bent rod with diameter 20 mm. The free-end of the bend is subjected to loads…

A: Write down the given value using a suitable variable. Here d signifies rod diameter. Draw a free…

Q: Consider the beam shown in sketch below, hinge supported at point A and roller supported at point D.…

A: Considering the cross-section of the beam The web is denoted as 1 and flange is denoted as 2

Q: At an arbitrary cross-section, a - a the state of stress is obtained at various points (point 1 ~ 5,…

Q: 7.2-5 The stresses acting on element A on the web of a train rail (see figure part a) are found to…

Concept explainers

Pressure Vessels

The term pressure vessel refers to a closed container that contains gas or liquid at a different pressure than environment pressure. The pressure vessels have a wide scale of applications in our day-to-day lives and other industrial places. Some common examples of pressure vessels are gas cylinders, autoclaves, compressor vessels, etc.

Question

The horizontal pipe shown in Figure 2 has a
hollow circular cross section of 38mm inner-
diameter and 50mm outer-diameter. Determine
the principle stresses (Gmax and omin) and
maximum shear stress (Tmax) at points A and B
on the cross section of the pipe at section a-a.
As shown in Figure 2, point A is located on y-
axis and the inner surface of the pipe while
point B is located on z-axis and the outer
surface of the pipe.
19 mm
E=200 N
25 mm
Section a-a
250 mm
300 mm

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

A circular tube is subjected to torque T at itsends. The resulting maximum shear strain in the tubeis 0.005. Calculate the minimum shear strain in thetube and the shear strain at the median line of thetube section.
A vertical shaft is supported by a thrust collar and bearing plate, as shown in Figure. Calculate the maximum axial stress of the shaft if the average punching shear stress in the collar and the average bearing stress between the collar and the plate are limited to 100 and 125 MPa, .respectively F100 mm- 150 mm Collar 25 mm
Fig 1 and 2 pictured with part A calculate the magnitude of the shear stress at the point due to internal shear on the section. calculate the combined normal stress at the point due to internal normal force and the internal bending moment of the section. Answer should be stress
Consider a two-component rod fixed at the left end. The first component (on the left, positioned from z=0 to z=L/2) is a solid rod with a shear modulus of G and radius c1. The second component (on the right, positioned from z=L/2 to z=L) is a hollow pipe fixed to component 1 at z=L/2 with the same shear modulus and outer radius c1, but with an inner radius of c2. A torque of 6To is applied at z=L/2, and a torque of -2To is applied at z=L. What value of c2 is required to make the maximum shear stress equivalent in each component? What is the angle of twist at the free end at z=L?
P= 2 MPa K= 3 MPa X ñ = :7 + √6 B SL K Z 2 1/6+ /6 j+ √6 P P (MPa) a-)Find the principal normal stresses and the direction of the greatest stress for the stress state in the figure. b-)The outer unit normal vector of the ABC plane is given below; C K (MPa) y according to this Calculate the normal stress and shear stress on this surface.
A thin-walled cylindrical pressure vessel of inner radius r = 0.6 cm and a thickness of 0.06 cm is subjected simultaneously to internal gas pressure p = 3.5 MPa, a compressive force F = 800 N acting at the ends, and a torsional load of 25 N · m (see figure). Determine the following quantities (a) the principal stresses at a point H on the surface of the vessel and the absolute maximum shear stress; (b) the normal strain along x-axis (ɛx) and the shear strain (yxy) at the same point H. See the established Oxy coordinate system. The Young's modulus of the material is 200 GPa and the Poisson's ratio is 0.3. Hint: the cross-section of the vessel can be regarded as a hollow tube and the cross-section area can be calculated as 1(0.00662 – 0.006²). You can do the same treatment for the polar moment inertia. 25 N· m F F H X 25 N· m
A propeller shaft subjected to combined torsionand axial thrust is designed to resist a shear stress of57 MPa and a compressive stress of 105 MPa (see figure).(a) Determine the principal stresses and show themon a sketch of a properly oriented element.(b) Determine the maximum shear stresses andassociated normal stresses and show them on asketch of a properly oriented element.
A hollow circular tube having an inside diameter of 10.0 in. and a wall thickness of 1.0 in. (see figure) is subjected to a torque T = 1200 kip-in. Determine the maximum shear stress in the tube using (a) the approximate theory of thin-walled tubes, and (b) the exact torsion theory. Does the approximate theory give conservative or nonconservative results?
A shaft with a solid, circular cross section consisting of two segments isshown in parta of the figure. The left-hand segment has a diameter of 80mm and length of 1.2 m; the right-hand segment has a diameter of 60mm and length of 0,9 m.Shown in part b of the figure is a hollow shaft made of the same materialand having the same length. The thickness tof the hollow shaft is d/10,where dis the outer diameter. Both shafts are subjected to the sametorque.a. If the hollow shaft is to have the same torsional stiffness as thesolid shaft, what should be its outer diameter d?b. If torque T is applied at either end of both shafts and the hollowshaft is to have the same maximum shear stress as the solid shaft,what should be its outer diameter d?
A = Tab Problem 1. An ellipse with semi-major axis a = 150 mm and semi-minor axis b = 100 mm is etched on a brass plate. The plate has dimensions 400 x 400 × 20 mm. Uniformly distributed normal stresses ox = -25 MPa and o, = 50 Mpa are applied to the plate. The Young's modulus E = 100 GPa, and Poisson's ratio v = 0.34. (Note: The ellipse remains an ellipse after stretching, but with different semi-major and semi-minor axes.) Find: a) The change in the area of the ellipse. Oy The in the thickness of the plate. b) c) The change AV in the volume of the plate. Ox a. -b- Ox a d) The strain energy, U, stored in the plate. Ty