Loose Leaf For Mechanics Of Materials F...7th EditionBEER Publisher: Mcgraw Hill PublishersISBN: 9780077625245
Loose Leaf For Mechanics Of Materials F...
Solutions for Loose Leaf For Mechanics Of Materials Format: Looseleaf
Problem 1P:
Two solid cylindrical rods AB and BC are welded together at B and loaded as shown. Knowing that d1 =...Problem 2P:
Two solid cylindrical rods AB and BC are welded together at B and loaded as shown. Knowing that the...Problem 3P:
Two solid cylindrical rods AB and BC are welded together at B and loaded as shown. Knowing that P =...Problem 4P:
Two solid cylindrical rods AB and BC are welded together at B and loaded as shown. Determine the...Problem 5P:
A strain gage located at C on the surface of bone AB indicates that the average normal stress in the...Problem 6P:
Two brass rods AB and BC, each of uniform diameter, will be brazed together at B to form a...Problem 7P:
Each of the four vertical links has an 8 36-mm uniform rectangular cross section, and each of the...Problem 8P:
Link AC has a uniform rectangular cross section 18 in. thick and 18 in. wide. Determine the normal...Problem 9P:
Three forces, each of magnitude P = 4 kN, are applied to the structure shown. Determine the...Problem 10P:
Link BD consists of a single bar 1 in. wide and 12 in. thick. Knowing that each pin has a 38-in....Problem 11P:
For the Pratt bridge truss and loading shown, determine the average normal stress in member BE,...Problem 12P:
The frame shown consists of four wooden members, ABC, DEF, BE, and CF. Knowing that each member has...Problem 13P:
An aircraft tow bar is positioned by means of a single hydraulic cylinder connected by a...Problem 14P:
Two hydraulic cylinders are used to control the position of the robotic arm ABC. Knowing that the...Problem 15P:
Determine the diameter of the largest circular hole that can be punched into a sheet of polystyrene...Problem 16P:
Two wooden planks, each 12 in. thick and 9 in. wide, are joined by the dry mortise joint shown....Problem 17P:
When the force P reached 1600 lb, the wooden specimen shown failed in shear along the surface...Problem 18P:
A load P is applied to a steel rod supported as shown by an aluminum plate into which a...Problem 19P:
The axial force in the column supporting the timber beam shown is P = 20 kips. Determine the...Problem 20P:
Three wooden planks are fastened together by a series of bolts to form a column. The diameter of...Problem 21P:
A 40-kN axial load is applied to a short wooden post that is supported by a concrete footing resting...Problem 22P:
An axial load P is supported by a short W8 40 column of cross-sectional area A = 11.7 in2 and is...Problem 23P:
Link AB, of width b = 2 in. and thickness t=14 in., is used to support the end of a horizontal beam....Problem 24P:
Determine the largest load P that can be applied at A when = 60, knowing that the average shearing...Problem 25P:
Knowing that = 40 and P = 9 kN, determine (a) the smallest allowable diameter of the pin at B if...Problem 26P:
The hydraulic cylinder CF, which partially controls the position of rod DE, has been locked in the...Browse All Chapters of This Textbook
Chapter 1 - Introduction-concept Of StressChapter 1.2 - Stresses In The Members Of A StructureChapter 1.5 - Design ConsiderationsChapter 2 - Stress And Strain-axial LoadingChapter 2.1 - An Introduction To Stress And StrainChapter 2.3 - Problems Involving Temperature ChangesChapter 2.9 - Stress-strain Relationships For Fiber-reinforced Composite MaterialsChapter 2.13 - Residual StressesChapter 3 - TorsionChapter 3.1 - Circular Shafts In Torsion
Chapter 3.3 - Statically Indeterminate ShaftsChapter 3.5 - Stress Concentrations In Circular ShaftsChapter 3.8 - Residual Stresses In Circular ShaftsChapter 3.10 - Thin-walled Hollow ShaftsChapter 4 - Pure BendingChapter 4.3 - Deformations In A Transverse Cross SectionChapter 4.5 - Stress ConcentrationsChapter 4.6 - Plastic DeformationsChapter 4.7 - Eccentric Axial Loading In A Plane Of SymmetryChapter 4.9 - General Case Of Eccentric Axial Loading AnalysisChapter 4.10 - Curved MembersChapter 5 - Analysis And Design Of Beams For BendingChapter 5.1 - Shear And Bending-moment DiagramsChapter 5.2 - Relations Between Load, Shear, And Bending MomentChapter 5.3 - Design Of Prismatic Beams For BendingChapter 5.4 - Singularity Functions Used To Determine Shear And Bending MomentChapter 5.5 - Nonprismatic BeamsChapter 6 - Shearing Stresses In Beams And Thin-walled MembersChapter 6.2 - Distribution Of Stresses In A Narrow Rectangular BeamChapter 6.5 - Plastic DeformationsChapter 6.6 - Unsymmetric Loading Of Thin-walled Members And Shear CenterChapter 7 - Transformations Of Stress And StrainChapter 7.1 - Transformation Of Plane StressChapter 7.2 - Mohr’s Circle For Plane StressChapter 7.5 - Theories Of FailureChapter 7.6 - Stresses In Thin-walled Pressure VesselsChapter 7.9 - Measurements Of Strain; Strain RosetteChapter 8 - Principal Stresses Under A Given LoadingChapter 8.2 - Design Of Transmission ShaftsChapter 8.3 - Stresses Under Combined LoadsChapter 9 - Deflection Of BeamsChapter 9.2 - Statically Indeterminate BeamsChapter 9.3 - Singularity Functions To Determine Slope And DeflectionChapter 9.4 - Method Of SuperpositionChapter 9.5 - Moment-area TheoremsChapter 9.6 - Moment-area Theorems Applied To Beams With Unsymmetric LoadingsChapter 10 - ColumnsChapter 10.1 - Stability Of StructuresChapter 10.2 - Eccentric Loading And The Secant FormulaChapter 10.3 - Centric Load DesignChapter 10.4 - Eccentric Load DesignChapter 11 - Energy MethodsChapter 11.3 - Strain Energy For A General State Of StressChapter 11.5 - Single LoadsChapter 11.9 - Statically Indeterminate Structures
Book Details
Beer and Johnston’s Mechanics of Materials is the uncontested leader for the teaching of solid mechanics. Used by thousands of students around the globe since publication, Mechanics of Materials, provides a precise presentation of the subject illustrated with numerous engineering examples that students both understand and relate to theory and application.
Sample Solutions for this Textbook
We offer sample solutions for Loose Leaf For Mechanics Of Materials Format: Looseleaf homework problems. See examples below:
Chapter 1.2, Problem 6PChapter 1.2, Problem 7PChapter 1.5, Problem 40PChapter 1.5, Problem 41PChapter 1.5, Problem 55PChapter 1.5, Problem 56PChapter 1, Problem 59RPChapter 1, Problem 66RPChapter 2.1, Problem 16P
Chapter 2.1, Problem 19PChapter 2.1, Problem 20PChapter 2.3, Problem 41PChapter 2.3, Problem 55PChapter 2.9, Problem 70PGiven information: The young’s modulus E is 105 GPa. The poison ratio ν is 0.33. The normal stress...Given information: The modulus of elasticity in x-direction Ex is 50 GPa. The modulus of elasticity...Given information: The cross sectional area AC and BC of each portions is 1,750 mm2. The modulus of...Chapter 2.13, Problem 122PChapter 2.13, Problem 123PChapter 2, Problem 124RPChapter 2, Problem 134RPChapter 3.1, Problem 28PChapter 3.1, Problem 30PChapter 3.3, Problem 55PChapter 3.3, Problem 56PChapter 3.3, Problem 58PChapter 3.5, Problem 74PChapter 3.5, Problem 75PGiven information: The length of the shaft (L) is 0.9 m. The shear stress (τY).is 180 MPa The...Given information: The radius of the solid shaft (c) is 16 mm. The shear stress (τY) is 145 MPa. The...Chapter 3.10, Problem 137PGiven information: The length of the steel member (L) is 8ft. The provided section of the member is...Chapter 3.10, Problem 150PChapter 3, Problem 151RPChapter 3, Problem 157RPChapter 4.3, Problem 10PChapter 4.3, Problem 11PChapter 4.3, Problem 19PChapter 4.5, Problem 39PChapter 4.5, Problem 55PChapter 4.5, Problem 56PGiven information: The yield stress for the beam is σY=42 ksi. The Young’s modulus of steel is...Given information: The yield stress for the beam is σY=42 ksi. The Young’s modulus of steel is...Given information: The yield stress for the beam is σY=42 ksi. The Young’s modulus of steel is...Chapter 4.7, Problem 112PGiven information: The load act on the point of the bars is P. Calculation: At the point A: Show the...Chapter 4.9, Problem 129PChapter 4.9, Problem 148PGiven information: The radius of the circular plate is R=125 mm. The width of the rectangular post...Chapter 4.10, Problem 161PGiven information: The value of h is 40 mm. The inner (r1) and outer radius (r2) of the curved bar...Consider w be the width as a function of β, w=2csinβ Sketch the cross section for the polar...Chapter 4, Problem 192RPChapter 5.1, Problem 2PChapter 5.1, Problem 6PChapter 5.1, Problem 33PShow the free-body diagram of the entire beam as in Figure 1. Determine the vertical reaction at...Chapter 5.2, Problem 62PChapter 5.2, Problem 63PChapter 5.3, Problem 86PChapter 5.3, Problem 89PChapter 5.3, Problem 90PShow the free-body diagram of the beam as in Figure 1. Determine the vertical reaction at point B by...Show the free-body diagram of the beam as in Figure 1. Determine the vertical reaction at point E by...Chapter 5.5, Problem 129PChapter 5.5, Problem 145PChapter 5, Problem 152RPChapter 5, Problem 155RPChapter 6.2, Problem 5PChapter 6.2, Problem 20PGiven information: The beam is a hollow square of side a and thickness t. The beam is subjected to a...Chapter 6.5, Problem 56PGiven information: K is a point at a distance y<yY above the neutral axis. σx=σY between C and E....Chapter 6.6, Problem 68PCalculation: Refer to sample problem 6.6 in the text book. Combined stress along the vertical leg...Chapter 6, Problem 89RPChapter 6, Problem 97RPChapter 7.1, Problem 14PChapter 7.1, Problem 15PChapter 7.1, Problem 16PChapter 7.2, Problem 31PChapter 7.2, Problem 37PChapter 7.2, Problem 38PGiven information: The components of stress σx=−50 MPa and τxy=48 MPa. The maximum shear stress...Chapter 7.5, Problem 77PGiven information: The state of plane stress components are σx=σ0, σy=12σ0, and τxy=0. The uniaxial...Chapter 7.6, Problem 124PGiven information: Steel Ring: The thickness (ts) of the steel ring is 18 in. The Young’s modulus...Given information: Steel Ring: The thickness (ts) of the steel ring is 0.25 in. The Young’s modulus...Given information: The normal strain in Rosette 1 is ε1=−93.1×10−6 in./in.. The Rosette 1 makes an...Chapter 7.9, Problem 156PChapter 7.9, Problem 157PChapter 7, Problem 158RPChapter 7, Problem 164RPChapter 8.2, Problem 9PChapter 8.2, Problem 10PChapter 8.2, Problem 14PChapter 8.3, Problem 47PChapter 8.3, Problem 48PChapter 8.3, Problem 54PChapter 8, Problem 65RPChapter 8, Problem 72RPChapter 9.2, Problem 11PChapter 9.2, Problem 29PChapter 9.2, Problem 30PChapter 9.3, Problem 44PChapter 9.3, Problem 60PGiven information: The modulus of elasticity of the material is E=29×106 psi. Calculation: Show the...Chapter 9.4, Problem 69PChapter 9.4, Problem 83PChapter 9.4, Problem 90PChapter 9.5, Problem 107PChapter 9.5, Problem 108PCalculation: Use moment area method: Show the free body diagram of the beam as in Figure 1....Given information: The elastic modulus (E) is 29×106psi. The section of the beam is W12×26....Chapter 9.6, Problem 146PCalculation: Let, choose reaction RC as redundant. Show the free body diagram of the beam in below...Chapter 9, Problem 157RPChapter 9, Problem 159RPChapter 10.1, Problem 14PChapter 10.1, Problem 27PChapter 10.2, Problem 41PGiven information: The magnitude of axial load is P=345 kN. The eccentricity of the load is e=6 mm....Given information: The effective length of the laminated column is le=2.1 m. The adjusted allowable...Chapter 10.3, Problem 80PChapter 10.3, Problem 84PChapter 10.4, Problem 105PGiven information: The length of the steel tube is L=2.2 m. The outer diameter of the steel tube is...Chapter 10, Problem 117RPGiven information: The effective length of the steel tube is Le=14 ft. The magnitude of the vertical...Chapter 11.3, Problem 10PChapter 11.3, Problem 15PGiven information: The stress component along x direction is σx=8 ksi. The stress component along z...Given information: Taking into account the effect of both normal and shearing stresses. Calculation:...Given information: The mass of the collar D is m=15 kg. The modulus of elasticity of the steel rod...Chapter 11.5, Problem 57PChapter 11.5, Problem 69PChapter 11.9, Problem 101PChapter 11.9, Problem 102PChapter 11.9, Problem 103PChapter 11.9, Problem 104PChapter 11, Problem 123RPChapter 11, Problem 133RP
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