Solutions for Vector Mechanics for Engineers: Statics
Problem 2.1P:
Two forces are applied as shown to a hook. Determine graphically the magnitude and direction of...Problem 2.2P:
Two forces are applied as shown to a bracket support. Determine graphically the magnitude and...Problem 2.3P:
Two forces P and Q are applied as shown at point A of a hook support. Knowing that P = 75 N and Q =...Problem 2.4P:
Two forces P and Q are applied as shown at point A of a hook support. Knowing that P = 60 lb and Q =...Problem 2.5P:
A stake is being pulled out of the ground by means of two ropes as shown. Knowing that = 30,...Problem 2.6P:
A telephone cable is clamped at A to the pole AB. Knowing that the tension in the left-hand portion...Problem 2.7P:
A telephone cable is clamped at A to the pole AB. Knowing that the tension in the right-hand portion...Problem 2.8P:
A disabled automobile is pulled by means of two ropes as shown. The tension in rope AB is 2.2 kN,...Problem 2.9P:
A disabled automobile is pulled by means of two ropes as shown. Knowing that the tension in rope AB...Problem 2.10P:
Two forces are applied as shown to a hook support. Knowing that the magnitude of P is 35 N,...Problem 2.11P:
A steel tank is to be positioned in an excavation. Knowing that = 20, determine by trigonometry (a)...Problem 2.12P:
A steel tank is to be positioned in an excavation. Knowing that the magnitude of P is 500 lb,...Problem 2.13P:
A steel tank is to be positioned in an excavation. Determine by trigonometry (a) the magnitude and...Problem 2.14P:
For the hook support of Prob. 2.10, determine by trigonometry (a) the magnitude and direction of the...Problem 2.15P:
The barge B is pulled by two tugboats A and C. At a given instant, the tension in cable AB is 4500...Problem 2.16P:
Solve Prob. 2.1 by trigonometry.Problem 2.17P:
Solve Prob. 2.4 by trigonometry.Problem 2.18P:
For the stake of Prob. 2.5, knowing that the tension in one rope is 120 N, determine by trigonometry...Browse All Chapters of This Textbook
Chapter 2 - Statics Of ParticlesChapter 2.1 - Addition Of Planar ForcesChapter 2.2 - Adding Forces By ComponentsChapter 2.3 - Forces And Equillibrium In A PlaneChapter 2.4 - Adding Forces In SpaceChapter 2.5 - Forces And Equillibrium In SpaceChapter 3 - Rigid Bodies: Equivalent Systems Of ForcesChapter 3.1 - Forces And MometsChapter 3.2 - Moment Of A Force About An AxisChapter 3.3 - Couples And Force-couple Systems
Chapter 3.4 - Simplifying Systems Of ForcesChapter 4 - Equilibrium Of Rigid BodiesChapter 4.1 - Equilibrium In Two DimensionsChapter 4.2 - Two Special CasesChapter 4.3 - Equillibrium In Three DimensionsChapter 5 - Distributed Forces: Centroids And Centers Of GravityChapter 5.1 - Planar Centers Of Gravity And CentroidsChapter 5.2 - Further Considerations Of CentroidsChapter 5.3 - Additional Applications Of CentroidsChapter 5.4 - Centers Of Gravity And Centroids Of VolumesChapter 6 - Analysis Of StructuresChapter 6.1 - Analysis Of TrussesChapter 6.2 - Other Truss AnalysesChapter 6.3 - FramesChapter 6.4 - MachinesChapter 7 - Internal Forces And MomentsChapter 7.1 - Internal Forces In MembersChapter 7.2 - BeamsChapter 7.3 - Relations Among Load, Shear, And Bending MomentChapter 7.4 - CablesChapter 7.5 - Catenary CablesChapter 8 - FrictionChapter 8.1 - The Laws Of Dry FrictionChapter 8.2 - Wedges And ScrewsChapter 8.3 - Friction On Axles, Disks, And WheelsChapter 8.4 - Belt FrictionChapter 9 - Distributed Forces: Moments Of InertiaChapter 9.1 - Moments Of Inertia Of AreasChapter 9.2 - Parallel-axis Theorem And Composite AreasChapter 9.3 - Transformation Of Moments Of InertiaChapter 9.4 - Mohr's Circle For Moments Of InertiaChapter 9.5 - Mass Moments Of InertiaChapter 9.6 - Additional Concepts Of Mass Moments Of InertiaChapter 10 - Method Of Virtual WorkChapter 10.1 - The Basic MethodChapter 10.2 - Work, Potential Energy, And Stability
Sample Solutions for this Textbook
We offer sample solutions for Vector Mechanics for Engineers: Statics homework problems. See examples below:
Chapter 2.2, Problem 2.22PChapter 2.2, Problem 2.36PChapter 2.3, Problem 2.50PChapter 2.3, Problem 2.57PChapter 2.3, Problem 2.65PChapter 2.4, Problem 2.95PChapter 2.4, Problem 2.96PChapter 2.5, Problem 2.107PChapter 2.5, Problem 2.112P
Chapter 2.5, Problem 2.115PChapter 2, Problem 2.127RPChapter 2, Problem 2.136RPWrite an expression to calculate the unit vector perpendicular to the plane. λ=A×B|A×B| (I) Here, λ...Write an expression to calculate the moment of the force at the origin O due to the force acting at...Write an expression to calculate the moment of the force at the origin O due to the force acting at...The tetrahedron has six sides of length as a. Formula to calculate the moment along the edge OA....Refer the Problem 3.55 Write the expression for force P in terms of unit vector at line joining...Refer the Problem 3.56P Write the expression for force P in terms of unit vector at line joining...Write the equation of moment of first couple about an arbitrary axis. M→1=r→c×F→1 (I) Here, the...Chapter 3.3, Problem 3.79PChapter 3.3, Problem 3.85PChapter 3.4, Problem 3.104PChapter 3.4, Problem 3.120PWrite the equation of the distance between AC. dAC=r12+r22+r32 (I) Here, the distance between AC is...Chapter 3.4, Problem 3.140PChapter 3, Problem 3.147RPChapter 3, Problem 3.156RPChapter 4.1, Problem 4.23PChapter 4.1, Problem 4.24PChapter 4.1, Problem 4.27PChapter 4.1, Problem 4.50PChapter 4.1, Problem 4.59PChapter 4.1, Problem 4.60PChapter 4.2, Problem 4.69PChapter 4.2, Problem 4.71PThe free-body diagram corresponding to the arrangement in Fig. P4.89 is given in Figure 1. The...Chapter 4.3, Problem 4.105PChapter 4.3, Problem 4.106PChapter 4.3, Problem 4.107PChapter 4.3, Problem 4.117PChapter 4.3, Problem 4.129PChapter 4, Problem 4.142RPChapter 4, Problem 4.152RPChapter 5.1, Problem 5.16PChapter 5.1, Problem 5.17PChapter 5.1, Problem 5.29PChapter 5.2, Problem 5.43PChapter 5.2, Problem 5.44PChapter 5.2, Problem 5.48PChapter 5.3, Problem 5.80PChapter 5.3, Problem 5.81PChapter 5.3, Problem 5.83PChapter 5.4, Problem 5.123PChapter 5.4, Problem 5.132PChapter 5.4, Problem 5.133PChapter 5.4, Problem 5.134PChapter 5, Problem 5.137RPChapter 5, Problem 5.138RPChapter 6.1, Problem 6.35PChapter 6.1, Problem 6.36PThe free-body diagram of the entire truss is shown in figure 1. Refer to figure 1 and use symmetry....Chapter 6.1, Problem 6.39PChapter 6.2, Problem 6.47PChapter 6.2, Problem 6.56PChapter 6.2, Problem 6.70PChapter 6.3, Problem 6.88PChapter 6.3, Problem 6.89PFigure 1 is the free body diagram of the entire frame of the system. Write the equation to find the...Figure 1 is the free body diagram of the entire frame of the system. Write the equation to find the...Chapter 6.3, Problem 6.121PChapter 6.4, Problem 6.157PChapter 6.4, Problem 6.158PChapter 6.4, Problem 6.159PChapter 6.4, Problem 6.162PChapter 6, Problem 6.164RPChapter 6, Problem 6.165RPChapter 7.1, Problem 7.15PChapter 7.1, Problem 7.16PChapter 7.2, Problem 7.35PChapter 7.2, Problem 7.60PChapter 7.2, Problem 7.61PChapter 7.3, Problem 7.86PChapter 7.3, Problem 7.87PChapter 7.3, Problem 7.88PChapter 7.4, Problem 7.99PChapter 7.4, Problem 7.116PChapter 7.4, Problem 7.125PChapter 7.5, Problem 7.147PGiven information: The length of the cable AB is L=10 ft. The value of angle θ is 45°. The collar at...Chapter 7, Problem 7.154RPChapter 7, Problem 7.161RPChapter 8.1, Problem 8.13PChapter 8.1, Problem 8.14PChapter 8.1, Problem 8.37PChapter 8.1, Problem 8.42PChapter 8.1, Problem 8.43PChapter 8.2, Problem 8.64PChapter 8.2, Problem 8.65PChapter 8.3, Problem 8.96PChapter 8.3, Problem 8.97PChapter 8.4, Problem 8.118PChapter 8.4, Problem 8.119PChapter 8.4, Problem 8.121PChapter 8, Problem 8.134RPChapter 8, Problem 8.136RPGiven information: The curve equation is x2a2+y2b2=1. Calculation: Sketch the vertical strip shaded...Chapter 9.1, Problem 9.23PChapter 9.1, Problem 9.24PGiven information: The width (b1) of flange is 120 mm. The height (h1) of flange is 30 mm. The width...Chapter 9.2, Problem 9.43PCalculation: Sketch the cross section as shown in Figure 1. Refer to Figure1. It is divided into 4...Chapter 9.3, Problem 9.79PChapter 9.3, Problem 9.82PChapter 9.4, Problem 9.99PChapter 9.4, Problem 9.102PChapter 9.5, Problem 9.135PGiven information: The thickness (t) of sheet steel is 2 mm. The density ρ of steel is 7,850 kg/m3....Chapter 9.5, Problem 9.145PGiven information: The mass of the cylinder is denoted by m. The length of the circular cylinder is...Chapter 9.6, Problem 9.181PChapter 9.6, Problem 9.183PChapter 9, Problem 9.185RPSketch the cross section as shown in Figure 1. Refer to Figure 9.13. The moment of inertia I¯x about...Chapter 10.1, Problem 10.5PChapter 10.1, Problem 10.6PChapter 10.1, Problem 10.21PChapter 10.1, Problem 10.22PChapter 10.1, Problem 10.53PChapter 10.2, Problem 10.80PChapter 10.2, Problem 10.97PGiven information: The system is in equilibrium when θ1=θ2=0. The length of the bars AB and BC is...Given information: The system is in equilibrium, when θ1=θ2=0. Calculation: Show the free-body...Chapter 10, Problem 10.101RP
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