Show work in a paper sheet asap. HW #24-5The link, which has a rectangular cross section, is subjected to an axial load. From afront view, the link is pinned-connected at both ends. From a side view, the link isfixed-connected at both ends. Determine the maximum axial load which can beapplied given a factor of safety against failure (buckling or yielding), F.S.L = 10 ind = 0.8 int = 0.2 inE = 29,000 ksiF.S. = 2Oy = 50 ksiAns: P = 3.05 kips(Prob. 10.2-HW1)PPFRONTSIDEBuckled shapet

To calculate the maximum axial load, given thelength breadth thickness modulus of elasticity stress…

fixed-connected at both ends. Determine the maximum axial load which can be applied given a factor of safety against failure (buckling or yielding), F.S. L = 10 in d = 0.8 in t = 0.2 in E = 29,000 ksi F.S. = 2 Oy = 50 ksi FRONT SIDE

fixed-connected at both ends. Determine the maximum axial load which can be applied given a factor of safety against failure (buckling or yielding), F.S. L = 10 in d = 0.8 in t = 0.2 in E = 29,000 ksi F.S. = 2 Oy = 50 ksi FRONT SIDE

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter11: Columns

Section: Chapter Questions

Problem 11.9.23P

See similar textbooks

Related questions

Q: Q3. For the system shown in the figure, find the equation of motion and the natural frequency.…

A: Equation of motion for rotational motion: ------------------------------(1)Equation for…

Q: 5.4 A liquid, density 801 kg/m³ and viscosity 1.49 cp, is flowing in a horizontal pipe at a velocity…

Q: The working fluid of a liquid-vapor cycle is 1kg of R-134a. The cycle operates between two pressures…

A: Given data,(A) Table for temperature, pressure, enthalpy, volume,entropy and quality factor:…

Q: Derive the equation of motion and find the steady-state response of the system shown in Figure 3 for…

A: Given:The spring stiffness The mass of the load.The mass of the bar Here, the steady-state response…

Q: mpression-ignition engine with compression ratio of 14 is being designed. Pressure and temperature…

A: Pressure at bottom dead center = P1 = 1.3 barCompression Ratio = CR = 14Temperature at top dead…

Q: develop a power point media presentation Presentation will require researching a module specific…

A: To Find:The four different types of reciprocating engines.The overview of the design, construction,…

Q: An anaerobic digester (sealed, ID: 20 m) is used to produce renewable fuel from agricultural…

A: Discharge Headspace = 18.6 psiSpeed N= 1760 rpmHead loss in the pipe Vapor pressure = 0.2 psi

Q: 6-58. The space truss is used to support the forces at joints B and D. Determine the force in each…

A: Using method of joints:Joint D:Joint C:Joint B:

Q: You would like to use a pipe-based continuous flow hydroponic system. In this configuration, the…

Q: m A different pendulum has length 32 inches and is released from rest when 0 = 5° (theta = 5…

A: The length is The angle is The initial velocity is zero.

Q: Please give a steps by steps explanation of each question answer please. Thanks you so much

Q: CONSION the given Wing VIBRADON Mooel. Determine the KOVATIONS OF MORON of the System. Note that G…

A: To find:The equations of motion of the systemGiven:The center of mass of the system is GThe distance…

Q: Design a plain carbon steel Centre crankshaft for a single acting four stroke single cylinder engine…

A: Bore of cylinder is: Stroke of cylinder is : Mean effective pressure is : Maximum combustion…

Q: Critical temperature Ter, Critical pressure Per, Critical specific volume Ver. unorh

A: The critical pressure is the pressure at which the gas and liquid can not exist together at the…

Q: The 180-lb man climbs up the ladder and stops at the position shown after he senses that the ladder…

A: Draw FBDNote - since the wall is smooth therefore the friction force at point B will be zero.Thus…

Q: You would like to use a pipe-based continuous flow hydroponic system. In this configuration, the…

Q: How would I plot the aircraft pitch angle response to elevator step inputs of -10, and +10 degrees…

A: Using Simulink's short-period approximation, plot the aircraft pitch angle reaction to elevator step…

Q: 1-83 La presión manométrica en el recipiente de aire de la figura P1-83 es 80 kPa. Calcule la altura…

Q: can someone please help me with this? Thank you I also attached a formula sheet we can use and we…

A: The axial load is The beam is

Q: A pneumatic system consumes 200 cfm, initial tank pressure is 125 psig, final or minimum tank…

A: Given:The pneumatic system consumes.The initial tank pressure is .The final tank pressure is .The…

Q: A refrigerator uses refrigerant-134a as its working fluid and operates on the ideal…

Q: The 2 lb ball at A is suspended by an inextensible cord and given an initial horizontal velocity…

A: Let position 1 be at ALet position 2 be the point described by the angle where the path of the ball…

Q: Oil with viscosity 7.8 x10-4 lbs and specific weight 59 flows through the funnel below. ft²…

Q: Q = 8 cfs he= 25 ft D = ? =f=002, D=7966 in 0.42 For a certain project. a water discharge of 8 efs…

A: Water discharge (Q) = 8 ft2/sHead loss (hL) = 25 ftPipe length (L) = 100 ft

Q: The velocity of a particle which moves along the s axis is given by v = 7 - 4t +7+3/2, where t is in…

A: The velocity of the particle, At t=0 s, so=4 m.Determine the position (s), velocity (v), and…

Q: ttempt only if you are 100% sure, The wrong answer will be reported. [1]How long would it take a…

A: The diameter of cylinder is The stroke length is The volume rate is

Q: You are tasked to check the safety factors for the bolt designs for the connection shown with an…

A: Find outSafety Factor for the Bolt DesignCalculate the required torque to bring the bolts to the…

Q: he system has a pin-connected rod AB, rod BC and disk C. At the instant shown, the disc, with center…

A: The disc rolls without slipping.

Q: 0.1 1.2 0|1 2(A) 107 1.6 1(P) 3(R) 1.4 1.1 14(2) 2(A) LAJM 1(P) 3(R) 1.0 4(A) 2(9) 5(R) 3(S) DV 1(P)

A: Given pneumatic circuit :(1.0) Actuator - converts different types of energy into mechanical…

Q: 4.3 An incompressible fluid flows at a rate of 0.015 m³/s through a pipe AB with a diameter of 0.1…

A: The flow rate through AB is The diameter of AB pipe is The diameter of BC is The diameter of BD is…

Q: A pump transfers water 950ft above the ground to the top of a tank with on top of a building with a…

A: Given:Volumetric flow rate =At the top of the tank head pressure =5 psiPump inlet Pressure = 60…

Q: A man pulls with a force of 300N on a rope attached to a building as shown, what are the horizontal…

A: Draw FBD

Q: The compound beam consists of the two solid steel rods bolted together along their length. The beam…

A: Given:We knowBending stress in a circular cross-section: --------(1)WhereM is the…

Q: The force F shown below is applied in the positive x-direction against a 20-degree slope. The force…

Q: Documents business requirements use-case narratives.for only one process note: please i want…

A: Given:

Q: Arm AB has a constant angular velocity of 12 rad/s counterclockwise. At the instant when the angle…

A: The angular velocity of AB is constant The angle is

Q: Consider a line consisting of only one machine. This machine takes on average 4 minutes (te=4 min)…

A: Given : The time taken by machine is The buffer size is

Q: R6-2. Determine the force in each member of the truss and state if the members are in tension or…

Q: A gas turbine that has a 0.75 efficiency compressor that compresses up to 0.5 MPa, a combustion…

Q: Determine the impact coordinates for the projectile

Q: Calculate the tangential component at of the acceleration.

A: radius r = 95 mspeed V = 105 km/h= 29.16 m/stime t1=17 st2 = 10s

Q: 5. Determine the maximum slope of the beam if, L-2m, wo-10 kN/m, E-200GPa, and I-6.667 (105) m.…

A: Given : The free body diagram is,

Q: A helical compression spring with squared and ground ends is made of music wire. It is to have a…

A: Given:The spring constant is the force to a solid length is The spring index is the design factor is…

Q: A hydraulic cylinder with 15 mm diameter pushes a heavy tool during the outward stroke, placing a…

Q: convection heat transfer

Q: Wind (Xiaoli) Please explain the turbine power curve below, addressing how energy is being generated…

Q: 14-3. Determine the stiffness matrix K for the truss. AE is constant. *14-4. Determine the force in…

A: “Since you have posted multiple questions, we will provide the solution only to the first question…

Q: At steady state, air at 200 kPa, 380 K, and mass flow rate of 0.5 kg/s enters an insulated duct…

Q: Methane, approximated as a perfect gas, is compressed adia and the final density. Round the final…

A: To calculate the final temperature and the final density of methanegiven thatinitial pressure final…

Q: The working gas of a thermodynamic cycle is a diatomic gas (assume constant specific heats.) The gas…

A: The initial pressure is The initial volume is The initial temperature is Process A-B constant…

Concept explainers

Buckling of columns

The column is described as a vertical member of the structure that carries an axial compressive load, and buckling is a lateral deformation of the column under the application of load.

Question

Show work in a paper sheet asap.

HW #24-5
The link, which has a rectangular cross section, is subjected to an axial load. From a
front view, the link is pinned-connected at both ends. From a side view, the link is
fixed-connected at both ends. Determine the maximum axial load which can be
applied given a factor of safety against failure (buckling or yielding), F.S.
L = 10 in
d = 0.8 in
t = 0.2 in
E = 29,000 ksi
F.S. = 2
Oy = 50 ksi
Ans: P = 3.05 kips
(Prob. 10.2-HW1)
P
P
FRONT
SIDE
Buckled shape
t

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: Introduction

VIEW

Step 2: calculate moment of inertia

VIEW

Step 3: calculate radius of gyration

VIEW

Step 4: crippling load for pin connected

VIEW

Step 5: crippling load for fix connected

VIEW

Solution

VIEW

Step by step

Solved in 6 steps with 36 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 fixed-pinned column is a W310 × 21 steel shape and is designed to carry an axial load of 125 kN. Determine the maximum permissible height L of the column if a factor of safety n = 2.5 is required with respect to the buckling of the column. Use E = 205 GPa and assume that the proportional limit is 340 MPa. The column may buckle about either axis of the cross section.
.16 Three identical, solid circular rods, each of radius r and length L, are placed together to form a compression member (see the cross section shown in the figure). Assuming pinned-end conditions, determine the critical load Pcr The rods act independently as individual columns. The rods are bonded by epoxy throughout their lengths so that they function as a single member. What is the effect on the critical load when the rods act as a single member?
A rigid bar of length L is supported by a linear elastic rotational spring with rotational stiffness ßRat A. Determine the critical load Pcr for the structure.
A fixed-end column with circular cross section is acted on by compressive axial load P. The IS-ft-long-column has an outer diameter of 5 in., a thickness of 0.5 in., and is made of aluminum with a modulus of elasticity of 10,000 ksi. Find the buckling load of the column.
A cantilever aluminum column has a square tube cross section with an outer dimension of 150 mm. The column has a length L = 4 m and is designed to support an axial load of 45 kN. Find the minimum required thickness of the section if the factor of safety n = 2.5 with respect to buckling. Assume that the modulus of elasticity is 72 GPa and the proportional limit is 480 MPa.
A W8 × 28 steel wide-flange column with pinned ends carries an axial load P. What is the maximum permissible length of the column if (a) P = 50 kips, and (b) P = 100 kips? (Assume E = 29,000 ksi and y = 36 ksi.)
An aluminum tube AB with a circular cross section has a sliding support at the base and is pinned at the top to a horizontal beam supporting a load Q = 200 kN (sec figure). Determine the required thickness t of the tube if its outside diameter d is 200 mm and the desired factor of safety with respect to Eu 1er buckling is n = 3.0. (Assume E = 72 GPa.)
The upper end of a WE × 21 wide-flange steel column (E = 30 × 103ksi) is supported laterally between two pipes (see figure). The pipes arc not attached to the column, and friction between the pipes and the column is unreliable. The base of the column provides a fixed support, and the column is 13 ft long. Determine the critical load for the column, considering Euler buckling in the plane of the web and also perpendicular to the plane of the web.
Select the lightest WT4 shape to be used as a 20 ft long tension member to resist the of dead load, D=40 k, live load, L=60 k, snow load, PS=25 k, and earthquake, E=110 k. The connection is two lines of bolts through the flange with three 3/4-in ∅ bolts in each line spaced at 3 in on center. Use A992 Grade 50 steel. Neglect block shear.
Find the critical buckling load of the 7 m long, cross-section column made of A-36 steel with hinged joints at both ends (Figure 3). E=200 GPa
A W14 * 30 structural A-36 steel column is pin connected at its ends and has a length L = 10 ft. Determine the maximum eccentric load P that can be applied so the column does not buckle or yield. Compare this value with anaxial critical load P applied through the centroid of the column.
An assembly consisting of tie rod (1) and pipe strut (2) is used to support an 80 kip load, which is applied to joint B. Strut (2) is a pin connected structural A-36 alloy steel (E=29,000) pipe with an outside diameter of 8.625 in. and a wall thickness of 0.325 in. For the loading shown in figure, determine the facotr of safety with respect to buckling for memeber (2)