The rectangular bar shown in the figure is subjected to a uniformly distributed axial loading of w = 11 kN/m and a concentrated force of P = 14 kN at B. Determine the magnitude of the maximum normal stress in the bar and its location x. Assume a = 0.9 m, b = 1.1 m, c = 20 mm, and d = 35 mm.

The rectangular bar shown in the figure is subjected to a uniformly distributed axial loading of w = 11 kN/m and a concentrated force of P = 14 kN at B. Determine the magnitude of the maximum normal stress in the bar and its location x. Assume a = 0.9 m, b = 1.1 m, c = 20 mm, and d = 35 mm.

Engineering Fundamentals: An Introduction to Engineering (MindTap Course List)

5th Edition

ISBN:9781305084766

Author:Saeed Moaveni

Publisher:Saeed Moaveni

Chapter14: Computational Engineering Tools Electronic Spreadsheets

Section14.5: An Introduction To Excel’s Visual Basic For Applications

Problem 1BYG

See similar textbooks

Related questions

Q: Determine the state of stress at points K and H on the cross-section of the shaft with diameter of…

A: Diameter of shaft(D)=40 mm Force(P1)=15 kN or 15000 N Force(P2)=18 kN or 18000 N

Q: A rectangular bar of initial cross-sectional area 50 mm and length 2 m is subjected to axial…

Q: The bar in the figure has constant width 35 mm and 10 mm thickness. Determine the * maximum normal…

A: The given figure is shown below:

Q: 4. A beam of rectangular cross section 40 mm by 100 mm is carrying a bending moment of M = 21 kN.m…

A: The given data is: b=40 mm d=100 mm M=21 KN-m σy=240 MPa E=200 GPa

Q: A wooden block of length 400 mm, width 50 mm and depth 100 mm is subjected to uniaxial load as shown…

A: Given data, For wooden block length = 400 mm width =50 mm Depth =100 mm To find the ratio of normal…

Q: The stresses shown act at a point in a stressed body. Assume stress magnitudes of Sx = 18 MPa, S, =…

Q: 4. The bar shown in Figure 2 has a constant width of 35 mm and a thickness of 10 mm. Determine the…

A: Hello dear this is the solution of your problem The answer is found to be Maximum avg normal…

Q: Example 7-5: The state of plane stress at a point with respect to the xy- axes is shown in the…

Q: 3. (a) A prismatic bar is subjected to an axial compressive stress of 85N/mm. Determine the i.…

Q: A steel wire 30 ft long, hanging vertically, supports a load of 500 lb. Neglecting the weight of the…

A: The force of resistance per unit area, offered by a body against deformation called stress, and the…

Q: A cube of material (E 15,000 psi, v 0.25) of side length 2" is shown in the x, y plane. Take x…

A: Change in length of the cube depends on the length of the sides of the cube and the normal stress…

Q: The circular shaft shown is subjected to an axial force P at its free end and a compressive force of…

Q: Problem 6. [Concepts: Spatially varying average normal stress, and integration] The bar has a…

Q: A stepped circular shaft fixed at one end is subjected to two axial forces as shown below. The…

Q: Question (1) A steel rod of diameter D = 50 mm has a tensile yield strength of 345 MPa supports an…

A: Diameter of rod,D=50mm Tensile yield strength=345MPa Axial load,P=50KN Vertical load,R=2KN L=0.8m

Q: 10 mm diam 5 mm diam 6 mm diam 500 N 900 N 800N C 400N

Q: A horizontal load P is applied to an assembly consisting of two inclined bars, as shown in the…

A: This problem is related to Strength of Material . In this question we calculate angle and Maximum…

Q: determine the diameter of the rod C if the allowable stress 86.60 MPa. Neglect the…

A: Free body diagram of Bar AB

Q: 800 N Pipe assembly shown has inner and outer diameters of 41.0 mm and 48.5 mm, respectively. The…

Q: o [MPa] steel / staal 250 A aluminium L3 +dAB dcD 120 [mm/mm] L1 L2 0.0012 0.0027 B.

A: from the given data,FAB=P×L2L1+L2= 100×25= 40 KNFCD= 60 KN

Q: A steel bar 50 mm diameter and 1 m long just fits within a rigid hole carries a compressive load of…

Q: The circular tube with the cross section shown is subjected to the axial force P and bending moment…

Q: Question 03: Determine the normal stress and draw the stress diagram of the beam at a point 1 m from…

A: Given data in question Load 20 kN/m Span 2 m MOI 225×106 mm4 Depth 300 mm To find out Normal…

Q: A high-strength steel [E = 188 GPa] tube having an outside diameter of 67 mm and a wall thickness of…

Q: 25 kN 20 kN B• D A +1.5 m- 3 m 3 m

Q: The major and minor principal stresses acting at a point are 50 Pa compression and 10 Pa…

A: Given,σP2=-50 PaσP1=-10 PaSo, the respective Mohr circle will be

Question

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps

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, civil-engineering and related others by exploring similar questions and additional content below.

Similar questions

1.2.8. Please show all work, i got MA wrong.
wrong given, pls. answer
According to this figure, What is d? What is dt?
The elevation of the * following figure is one of the options a O d O O b a 4.34 b 60 C
The cable supports the loading shown. Determine the magnitude of the horizontal force P so that X₂ = 6 ft. XB
Fullform of PVDF
what are the USCS group name for each of the four gradations
Draw mohr circle
please explain what the exp in the calculation means
match, the options are in grey
Answer Yes or No.
Complete the following set of profile level notes and show the customary arithmetic check.