Answered: Three rods of equal length L and cross…

Three rods of equal length L and cross section area A, made of material Aluminum, rubber, steel and glass is subject to a same load F. What will be the stress values in each of the rods?

Steel Design (Activate Learning with these NEW titles from Engineering!)

6th Edition

ISBN:9781337094740

Author:Segui, William T.

Publisher:Segui, William T.

Chapter1: Introduction

Section: Chapter Questions

Problem 1.5.3P: A tensile test was performed on a metal specimen having a circular cross section with a diameter 0....

See similar textbooks

Related questions

Q: 3- Find the Design and the Allowable Compressive Strengths of a 15ft-long W14x68 column with…

A: W14x68Length, L = 15 ft

Q: What are the main types of loads that a structure must resist, and how do engineers account for them…

A: Buildings and other structures in structural engineering are subjected to various loads that exert…

Q: A 2 ¼ 4 d E = 10,000 ksi I= 400 in" 12' 84 40 k' Using double integration method, obtain elastic…

A: The objective of the question is to find the elastic curve, the slope equation, and the deflection…

Q: What are the advantages and limitations of mechanical excavation techniques compared to manual…

A: Excavation is a process of digging or removing the soil and when it done using machines it is called…

Q: D1 40 in. B i) Find the elongation of AB at B ii) Find the total elongation at C P1/2 P1/2 30 in. D1…

Q: A rapid sand filter is provided in a water treatment plant for a popul are 6 filters used in it,…

Q: Question Find the location of the Centroid for the concrete member shown below, relative to the y…

Q: A truck travelling at 70km/h suddenly puts on the brakes and it takes 50 seconds to travel the next…

Q: A commercially-pure copper wire originally 10.00m long is pulled until its final length is 10.10 m.…

A: Initial Length of wire L = 10.00 m Final length in first case = 10.10 m Final length is second case…

Q: Assume the distributions of the Strength H and Stress S are all Normal distribution or Exponential…

A: The objective of the question is to derive the reliability calculation formula by stress-strength…

Q: The minimum coefficient of friction (rounded off to two decimal places) between the rope and the…

A: For given pulley system as shown below,to find the minimum coefficient of friction between the rope…

Q: Two ethical Lessons Learned and identify two ethical practices you would impose on yourself post…

A: In the realm of ethics, particularly within professional settings post-graduation, the lessons…

Q: A cylindrical measuring instrument is being designed to study the Ganga river. It is proposed that…

Q: In the beam loaded as shown below, compute the moment of areas between support about the right end

A: To compute:The moment of areas between support about the right end

Q: A Boundary Survey provides the following information:

A: The objective of providing a detailed explanation of a boundary survey is to clarify the purpose,…

Q: 501b یا ری 7016 ای 135b راحم

Q: Question The electric motor exerts 600 Nm torque on the aluminum shaft ABCD when it is rotating at a…

A: T = 600 Nm GBC = 16 GPa or 16000 MPa GCD = 12 GPa or 12000 MPa dBC = 30 mm

Q: Determine the minimum diameter of the bolt if the maximum shear stress is equal to 10 ksi. The value…

A: dmin = 12/16in final answeri have attached the photo of step by step solutionExplanation:Step 1:…

Q: A group of 12 friction piles, having 15 m length and 400 mm diameter each are arranged at a centre…

A: A group of 12 friction piles, having 15 m length and 400 mm diameter each are arranged at a centre…

Q: 4-23. The steel bar has the original dimensions shown in the figure. If it is subjected to an axial…

Q: Determine (a) the magnitude and (b) direction of the anchoring force needed to hold the horizontal…

A: Determine the magnitude and direction of the anchoring force to hold the horizontal elbow.

Q: 2- Determine the Elastic & Plastic moment capacity about the "y-y" axis of the steel section shown…

A: The yield strength is given as

Q: Use AASHTO method to classify the following different group indices based on their test results. 1)…

Q: 17.3. A transfer girder has an overall depth of 11 ft and spans 22 ft between column supports. In…

Q: Homework-4 Mu=90 ft.k wu=6 k/ft M=80 ft.k If: fc'=4ksi, and fyt=60ksi Determine: 1- Shear diagram.…

Q: section is The maximum compressive force acting on the hatched area of cross- 2 kN/m 6 m 25 mm T 50…

Q: The inclined face AD of the tank in the figure is a plane surface containing a triangular gate ABC.…

Q: What are the most common treatments to minimize concrete block moisture absorption?

A: To minimize concrete block moisture absorption,several common treatments and practices are employed…

Q: Use the figure below to solve this problem. A) Assume a 4-inch thick-reinforced concrete (normal…

Q: An oil of viscosity 1.5 Ns/m² flows between two parallel plates and the maximum velocity of flow is…

A: Oil viscosity = 1.5 Ns/m2 Velocity = 1.5 m/sShear stress = 105 N/m2 Find distance between the…

Q: How much weight can a 4-meter-tall steel (E = 200 GPa) column of cross section 20 x 60 mm with one…

A: Given data -Modulus of elasticity E = 200 GPaLength L= 4 mColumn cross section ( b x h ) = 20 x 60…

Q: The closed tank in the figure is filled with water (yw = 62.4 lb/ft³) and is 5 feet long (in and out…

A: Unit weight of water (yw) = 62.4 lb/ft3 Local atmospheric pressure = 14.7 psia Determinea. The…

Q: Consider two shafts one solid of mild steel of 200 mm diameter and another hollow of alloy steel of…

A: The diameter of the solid shaft is 200 millimeters.The outer diameter of the hollow shaft is 200…

Q: 1. In structural members subjected to a combination of bending and axial force, what additional…

A: 1. in structural members subjected to a combination of bending and axial force, what additional…

Q: An MSW (Municipal Solid Waste) sample weighs 5 kg. Total energy content of the waste sample…

A: An MSW (Municipal Solid Waste) sample weighs 5 kg.Total energy content of the waste sample collected…

Q: Figure P7.8 shows an embankment load on a silty clay soil layer. Determine the stress increase at…

Q: The rectangular steel frame shown is to support a footbridge in a chemical plant. The ends of the…

Q: Two wooden planks, each 12 mm thick and 225 mm wide, are joined by the dry mortise joint shown.…

A: t = 12 mmb = 225 mm = 20 MPa

Q: Determine the critical buckling load and stress of an 8" X 6" X 3/8" rectangular structural tube…

Q: Consider the truss as shown below: A B 4√2m 45° 4 m AE is constant What will be the ratio of…

A: For given truss with loading condition as shown in image,To find the ratio of magnitudes of vertical…

Q: Show step by step sol

A: P1= 981 PaV1 = 1.53 m/sExplanation:

Q: The load system as shown in figure, moves from left to right on a girder of span 10 meters. The…

A: For given arrangement,To find the absolute maximum bending moment

Q: Q2. Analyze the truss: 30 kN G 60 kN 4@4m 16 m 30 kN D 2m + 2m

Q: Question # 01 p f Design the following steel beam for bending and check for both shear stress and…

A: Fb(allowable) = 30 ksiFv(allowable) = 14.5 ksiE = 30000 ksi

Q: 6. An Impervious floor of a weir on Permeable Soil is 16m long and has Sheet piles On Both Ends. The…

Q: 1. Prepare a set of profile leveling notes for the survey in Figure 1. In addition to computing all…

A: A profile leveling survey figure given belowNeed to findPrepare a set of profile leveling notes for…

Q: The internal shear force V at a certain section of a steel beam is 79 kips. If the beam has the…

Q: 1. Motor M begins to rotate at an angular rate of w=4 (1-et) rad/s where t is in seconds. If the…

A: angular velocity of the motor, Differentiate angular velocity with respect to timeangular velocity…

Q: Problem 2 B a A d The 54-N force P is applied perpendicular to the portion BC. Given a = 35.1 deg…

Q: Can we not assume, since we EF azimuth is given

Question

Do not use Ai, Solve using a sheet of paper in detail.

A
Three rods of equal length L and cross
section area A, made of material
Aluminum, rubber, steel and glass is
subject to a same load F.
What will be the stress values in each of
the rods?
A) Steel <Aluminum < Glass < Rubber
B) Aluminum < Steel < Glass < Rubber
C) Glass Steel <Aluminum < Rubber
D) Same
E) Insufficient Information

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: Given

VIEW

Step 2: explaonation

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 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, civil-engineering and related others by exploring similar questions and additional content below.

Similar questions

A tensile test was performed on a metal specimen having a circular cross section with a diameter 0. 510 inch. For each increment of load applied, the strain was directly determined by means of a strain gage attached to the specimen. The results are, shown in Table: 1.5.1. a. Prepare a table of stress and strain. b. Plot these data to obtain a stress-strain curve. Do not connect the data points; draw a best-fit straight line through them. c. Determine the modulus of elasticity as the slope of the best-fit line.
A brass (? =5.6 ? 10^6 ???) and aluminum (? = 3.7 ? 10^6 ???) cylinders are bonded together at B, and are attached to fixed supports A and C. Determine (a) The torsion in AB, (b) The torsion in BC, (c) The maximum shearing stress in AB (d) The maximum shearing stress in BC.
5. Find the maximum allowable value of P for the column. The cross-sectional areas and working stresses (??) are shown in Figure 3. 6. The wood pole shown in the Figure 4 is supported by two cables of ¼ inch diameter. The turnbuckles in the cable are tightened until the stress in the cables reaches 60,000 psi. if the working compressive stress for wood is 200 psi, determine the smallest permissible diameter of the pole.
STRENGTH OF MATERIALS. Please show the complete solutions. Rate will be given. Answer in 3 decimal places! The plate shown is fastened to the fixed member by eight 16-mm diameter rivets. Compute the polar moment of inertia, J. Determine the value of the loads P so that the maximum shearing stress in any rivet does not exceed 80 MPa. If P = 8200 N, what is the maximum and minimum shearing stress developed in the rivet.
Define the terms shear stress and shear strain, illustrating your answer by meansof a simple sketch. Two circular bars, one of brass and the other of steel, are to beloaded by a shear load of 30 kN. Determine the necessary diameter of the bars (a) insingle shear, (b) in double shear, if the shear stress in the two materials must notexceed 50 MN/m2and 100 MN/m2respectively.
Two wooden boards are joined by cutting and gluing them together along the plane shownin the illustration. The boards have cross-sectional dimensions of 3.5” by ¾” and are subjectedto an axial tension, P, of 1870 lb.a) Determine the normal and shear stresses acting on the glued joint if  = 20o.b) For what joint angle, , will the shear stress on the glued joint be equal (in magnitude) totwice the normal stress on the joint?
The beam is loaded by two point forces P. The beam is assembled according to the cross-sectional view by nailing wooden parts with cross-sections of 50 mm x c = 220 mm and 25 mm x d = 260 mm. How large can the value of the load P be when the distance between the nails in the longitudinal direction of the beam is 100 mm, the cross-sectional area of the nail is 9 mm2 and their permissible shear stress is 110MPa? Then calculate the maximum stresses and shear stresses of the beam at that load when the distance between the articulated supports is L = 1.9 m and the length of the beam projections a = 1.3 m. Permissible shear force of one nail? kN Static torque of the cutting surface? mm^3 Maximum torque change in cantilever? kNm Cutting force of the projection? kN Magnitude of force P? kN Calculated with the obtained force P maximum normal stress? MPa shear stress maximum? MPa
The rigid bar of negligible weight is pinned at O and attached to two vertical rods. Assuming thatthe rods were initially stress-free, what is the largest load P that can be applied without exceedingstresses of 150 MPa in the steel rod and 70 MPa in the bronze rod?
Solve Sample Problem No. 1 using these load values: a. M D =175 kN-m,M L =1 90 kN-m b. Find the maximum design moment so that its tension controlled. (USE c = 3d / 8). Tension steel exactly experiences 0.005 strain.
An aluminum pipe must not stretch more than 0.05in when it issubjected to a tensile load. Knowing that E=10.1x10^6psi and that the maximum allowable normal stress is 14ksi, determine (a) the maximum allowable length of the pipe, and (b) the required area of the pipe if the tensile load is 127.5kips.
A steel rod with a cross sectional area of 120〖mm〗^2 is stretched between two fixed points. The tensile load at 20°C is 4200N. What will be the stress at-25°C? α=11.7x〖10〗^(-6)/°C and E = 200GPa. See figure 06
A steel rod of 20mm is enclosed centrally in a hollow copper tube of external diameter 40mm and internal diameter of 35mm the composite bar is then subjected to an axial pull of 50KN.If the length of each bar is equal to 200mm,determine 1.The stress in the rod and the tube 2.Load carried by each bar Take E for steel=200KN/mm2 and copper =100KN/mm2