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*launch*### Vector Mechanics for Engineers: Statics12th EditionFerdinand P. Beer, E. Russell Johnston Jr., David Mazurek Publisher: McGraw-Hill EducationISBN: 9781259977268

Vector Mechanics for Engineers: Statics

## Solutions for Vector Mechanics for Engineers: Statics

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 2.10P:

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...

## 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:

Refer figure P2.22. The simplified diagram of the figure P2.22 is shown in figure 1 below. Figure 1...Figure 1 below shows the three forces acting on point A and their directions. The figure shows three...In the arrangement in Fig. P2.50, the forces acting at the point c are one of magnitude 200 N and...The arrangement of the system is given in Fig. P2.44. The tension in the cable AC and BC can be...The length of the cable loop is 1.5 m, the mass of the crate is 300 kg. Above figure represents the...The following figure gives the sketch of the system given in the problem. The tension in the cables...Write the equation to find the magnitude of the vector AB. |AB|=ABx2+ABy2+ABz2 (I) Write the...The sketch of the cables connected at A, where the forces P and Q applied is shown in below figure1....Free body diagram at A is shown in figure1. Here, TAB is the magnitude of tension in cable AB, TAC...

The sketch of plate supported by three cables is shown in figure 1. Free body diagram at A is shown...Two forces P and Q are applied to the lid of a storage bin as shown. Knowing that P = 48 N and Q =...The free body diagram is sketched in the figure 1 below From the free body diagram the tension along...Write 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...Write the equation of the couple acting at the reactangular side B and C (Refer fig P3.78). M1=Fd...Refer Fig P3.85. Write the expression of the force at D in component form. F→B=FB(−sinθ i^−cosθ j^)...Take counterclockwise torques as positive quantities and clockwise torques as negative quantities....Refer Fig P3.120. Its vector diagrams showing equivalent force-couple is given below. Write the...Write the equation of the distance between AC. dAC=r12+r22+r32 (I) Here, the distance between AC is...The diagram for the force-couple system is given below: Refer fig 1. Write the equation of resultant...The magnitude of P is 300 N. Write the expression for the vector from O to A. rOA=200 mm(1 m1000...The z-component of the replaced equivalent couple M2z is zero, magnitude of F1 is 77 N and moment M1...Take vectors along positive x and y axis are positive. Let A is the reaction at the point A , B is...Take vectors along positive x and y axis are positive. Let A is the reaction at the point A , B is...Forces acting upward and rightward are considered as positive and the torque acting counter...The free body diagram of the traffic signal pole (a) and its support is given in the figure 1. The...Given information: The size of the identical plates is 500 mm×750 mm. Number of plates is 8. The...Given information: The magnitude of the force P is 12 kips. Calculation: Figure 1: Show the...Calculation: If the rigid body subjected to three forces, such a body is commonly called a...Calculation: If the rigid body subjected to three forces, such a body is commonly called a...The free-body diagram corresponding to the arrangement in Fig. P4.89 is given in Figure 1. The...PROBLEM 4.105 A 10-ft boom is acted upon by the 840-lb force shown. Determine the tension in each...Refer figure1 shown below. The figure shows that the pole ABC is acted upon by a certain force. The...Refer figure1 shown below. The figure shows that the pole ABC is acted upon by a certain force. The...The tension in the cable DCE can be represented as TCD and TCE respectively. The total tension on...The tension in the cable CF can be represented as TCF, in the cable BE can be represented as TBE and...The free-body diagram is shown in figure 1. The weight of the truck is 3200 lb and it is lifting...The free-body diagram is shown in figure 1. Write the expression for the tension in the cable....Write the expression for the y-coordinate of the centroid of the sector with radius r2....Write the expression for the y-coordinate of the centroid of the sector with radius r2....The diagram for the centre of gravity is depicted below: Write the equation of x-coordinate of the...5.43 and 5.44 Determine by direct integration the centroid of the area shown. Express your answer in...Refer the figure P5.44 and figure given below. Write the equation for curve y. y=kx2 (I) Here, y is...Refer the figure P5.48 and figure given below. Write the equation for curve r. r=aeθ Here, y is the...Given that the width of the dam section w is 1 ft. The height of the dam at the point C is h=18 ft....Given that the width of the dam section w is 1 ft. The height of the dam at the point C is h=18 ft....Sketch the free body diagram of the dam as shown in the Figure 1. Write the equation for the...Refer Fig. P5.21 and Fig. 1. Let the element of volume of the disk be of radius r and thickness dx....Refer Fig. P5.132 and Fig. 1. For the coordinate axis given below, using the symmetry of the...Refer Fig. P5.132 and Fig. 1. For the coordinate axis given below, using the symmetry of the...Refer Figure 1 and Figure 2. Consider an elemental section of the given section. Write an expression...Refer Figure 1. The plane is considered as two separate sections as in figure 1. Section 1 is a...Refer Figures 1 and 2. Figure 1 Figure 2 The plane is considered as three separate sections as in...The free-body diagram of the entire truss is shown in figure 1. Refer to figure 1 and use symmetry....The free-body diagram of the entire truss is shown in figure 1. Refer to figure 1 and use symmetry....The free-body diagram of the entire truss is shown in figure 1. Refer to figure 1 and use symmetry....Given information: The value of the force P is P=(−1200N)j. The value of the force Q is zero....The floor truss is loaded as shown in the figure. The free body diagram of the given arrangement is...The Pratt roof truss is loaded as shown in the figure. There is load at all the point on the top....The structure is shown in Fig. P6.70 (a). The free-body diagram of the truss is given in Figure 1....The arrangement is shown in Fig. P6.88. The free-body diagram of the entire frame is given in Figure...The free body diagram of the problem 6.89P is shown in figure 1 below. A clockwise couple is applied...Figure 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...The following figure gives the free body diagram of the first part of the member in figure...Take all vectors along the x axis and y axis as positive. Let P is the force exerted on the bucket...Take all vectors along the x axis and y axis as positive. Let P is the force exerted on the bucket...Take all vectors along the x axis and y axis as positive. Radius of gear A is 80 mm and radius of...Take all vectors along the x axis , y axis and y axis as positive. The free body diagram of the...The free-body diagram of the truss is shown in figure 1. The sum of the moments about the point C...The free-body diagram of the truss is shown in figure 1. The sum of the moments about the point A...Knowing that the radius of each pulley is 120 mm and neglecting friction, determine the internal...Sketch the free body diagram for the internal forces acting on the frame and pulley system as shown...Refer Figure 1. Refer Figure 2. Write an expression to calculate the net counter clockwise moment at...Refer Figures 1. Write an expression to calculate the counter clockwise moment at point A. ΣMA=0...Refer Figure 1. Write an expression to calculate the counter clockwise moment at point A. ΣMA=0...Refer Fig P7.86 and figure 1. Write the equation for the distributed load. w=w0(1−xL) (I) Here, w0...Refer Fig P7.87. Write the equation for the distributed load. w=w0(1−xL)−w02(xL)=w0(1−3x2L) (I)...Refer Fig P7.88. Write the equation for change in shear moment with distance. dVdx=−w (I) Here, V is...Refer Fig P7.99. The figure 1 below shows the free body diagram of the portion ABC. The total moment...The free body diagram for the portion AC is depicted below: Refer fig 1, Write the equation of net...The figure 1 below shows the cable and which makes the curve due the load w. Write the expression...Given information: The length of the cable AB is L=10 ft. The value of angle θ is 30°. The collar at...Given information: The length of the cable AB is L=10 ft. The value of angle θ is 45°. The collar at...The free body diagram is given in figure 1. From the diagram, net force along horizontal and...Given information: The moment applied at A is M=0. Calculation: Show the free-body diagram of the...Given information: The mass of the package A, B, and C is mA=mB=mC=4 kg. The static coefficient of...Given information: The mass of the package A, B, and C is mA=mB=mC=4 kg. The static coefficient of...Given information: The length of the plank is L=1.2 m. The mass of each plank is m=3 kg. The...Given information: The length of the beam is 10 ft. The weight of the beam is W=1,200 lb. The...Given information: The mass of the blocks A and B is m=8 kg. The coefficient of static friction...Given information: The mass of the pipe is m=50 kg. The value of angle θ is 15°. The coefficient of...Given information: The mass of the pipe is m=50 kg. The value of angle θ is 15°. The coefficient of...Write the equation of the magnitude of the couple as follows; M=23μkPsinθR23−R13R22−R12 Here, the...Given information: The diameter of the electric floor polisher is D=18 in.. The weight of the...Given information: The mass of the block C is mC=100 kg. The coefficient of static friction is...Given information: The mass of the block C is mC=100 kg. The coefficient of static friction is...Given information: The coefficient of static friction is μs=0.25. The coefficient of kinetic...Given information: The coefficient of static friction is μs=0.40. The coefficient of kinetic...Given information: The weight of the cabinet is W=120 lb. The coefficient of static friction between...Given information: The curve equation is x2a2+y2b2=1. Calculation: Sketch the vertical strip shaded...Given information: The equation of the curve is y2=c+k2x2 The equation of the curve is y1=k1x2...Calculation: Sketch the horizontal strip along circular portion as shown in Figure 1. Write the...Given information: The width (b1) of flange is 120 mm. The height (h1) of flange is 30 mm. The width...Calculation: Sketch the cross section as shown in Figure 1. Refer to Figure 1. Find the area (A1) of...Calculation: Sketch the cross section as shown in Figure 1. Refer to Figure1. It is divided into 4...Calculation: Sketch the quarter ellipse as shown in Figure 1. Refer to Figure 9.12 “Moments of...Calculation: Refer to problem 9.75. The product of inertia of the area with respect to x and y axes...Sketch the cross section as shown in Figure 1. Express the product of inertia as shown below:...Calculation: Sketch the cross section shown in Figure 1. Refer to Figure 1. Find the area (A1) of...Given information: The thickness (t) of sheet steel is 2 mm. The density ρ of steel is 7,850 kg/m3....Given information: The thickness (t) of sheet steel is 2 mm. The density ρ of steel is 7,850 kg/m3....Given information: The density (ρST) of steel is 7,850 kg/m3. Calculation: Sketch the section of...Given information: The mass of the cylinder is denoted by m. The length of the circular cylinder is...Calculation: Refer to problem 9.145 and 9.149. Ix=26.4325×10−3 kg⋅m2Iy=31.1726×10−3...Given information: Refer Problem 9.168. Show the moment of inertia as follows:...Given information: The curve Equation is y=4h(xa−x2a2) Calculation: Sketch the shaded portion with...Sketch the cross section as shown in Figure 1. Refer to Figure 9.13. The moment of inertia I¯x about...Given information: The spring constant is k=15 kN/m. Calculation: Show the free-body diagram of the...Given information: The spring constant is k=15 kN/m. Calculation: Show the free-body diagram of the...Given information: The magnitude of the force P is 4 kN. The distance between the point A and B is...Given information: The magnitude of the couple M is 100 N⋅m. The distance between the point A and B...Find the force at A; Show the free-body diagram of the continuous beam as in Figure 1. Consider the...Given information: The weight of the slender rod AB is W=300 lb. The length of the slender rod AB is...Given information: The system is in equilibrium when θ1=θ2=0. Calculation: Show the free-body...Given 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...Show the free-body diagram of the arrangement as in Figure 1. Consider the vertical displacement at...

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Vector Mechanics For Engineers - Statics

5th Edition

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Vector Mechanics For Engineers: Statics: Problems Supplement

5th Edition

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Vector Mechanics For Engineers: Statics

9th Edition

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Vector Mechanics for Engineers: Statics

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Mechanics for Engineers, Statics

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Vector Mechanics for Engineers: Statics

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Vector Mechanics for Engineers: Statics

12th Edition

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CE 99 STATICS-W/ACCESS (LL) >IP<

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VECTOR MECHANICS FOR ENGINEERS: STATICS

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Loose Leaf for Vector Mechanics for Engineers: Statics

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Vector Mechanics for Engineers: Statics, 11th Edition

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