Concept explainers
Find the force representing the reaction at A using the virtual work method.
Find the couple representing the reaction at A using the virtual work method.
Answer to Problem 10.53P
The force representing the reaction at A is
The couple representing the reaction at A is
Explanation of Solution
Find the force at A;
Show the free-body diagram of the continuous beam as in Figure 1.
Consider the member AB is horizontal.
The vertical displacement at point A is
Find the vertical displacement
Find the vertical displacement
Find the vertical displacement
Find the vertical displacement
Use the concept of virtual work;
Substitute
Therefore, the force representing the reaction at A is
Find the couple at A;
Show the free-body diagram of the continuous beam as in Figure 2.
Rotate the member AB in the beam through
Find the vertical reaction
Find the vertical displacement
Find the vertical displacement
Find the vertical displacement
Use the concept of virtual work;
Substitute
Therefore, the couple representing the reaction at A is
Want to see more full solutions like this?
Chapter 10 Solutions
Loose Leaf for Vector Mechanics for Engineers: Statics and Dynamics
- Determine the force in member BD and the components of the reaction at C.arrow_forward71 of 923 > Fig. 10.123 E 6.126 Solve Prob. 6.125 when (a) ẞ = 0, (b) f = 6°. 6.127 The press shown is used to emboss a small seal at E. Knowing that P = 250 N, determine (a) the vertical component of the force exerted on the seal, (b) the reaction at A. Answer Fig. P6.127 and P6.128 = 200 mm A B 60° D -20° 400 mm 15° Aa Carrow_forwardFor the shown frame and loads P=756 KN and Q=1512 KN, - 3 m 1.5 m 1 m 8 m 6 m magnitude of y-component of reaction at B (KN) a. 168 b. 210 C. 252 d. 262.5 e. 294 magnitude of x-component of reaction at B (KN) a. 6552 b. 4368 с. 5460 d. 2184 e. 7644 magnitude of x-component of reaction at C (KN) magnitude of y-component of reaction at C (KN) magnitude of y-component of reaction at A (KN)arrow_forward
- Question 4: (a) (i) State the Principle of Moment (Varignon's Theorem). (ii) Prove that the moment of a couple is the same about any axis perpendicular to the plane of action of the couple. (b) A uniform rod Whose centre of gravity G divides it into the ratio AG : GB = a :b is in limiting equilibrium at an angle a with the horizontal with its upper end B resting against a smooth peg and its lower end A attached to a light cord, which is fastened to a point C on the same level as B. Prove that the angle B at which the cord is inclined to the horizontal is given by the equation a+b b tanß = tana cot a a a Question 5: (a) From Lesotho Bank tower an object was observed on the ground at a depression o below the horizon. A gun was fired at an elevation a, but the shot missing the object, stuck the ground at a point whose depression was y. Prove that the correct elevation 0 of the gun is given by sin(20 +0) + sin(o) sin(2a+0) + sin(o) sin y (1+ cos(20)) sin o (1+cos(2y))arrow_forwardCE control rod passes through horizontal hole on the body of the sear system shown in the figure. Knowing that link BD is 250 mm long, determine the force Q required to hold the system in equilibrium when β=20 °.arrow_forwardArm ABC is connected by pins to a collar at B and to crank CD at C Neglecting the effect of friction, determine the couple M required to hold the system in equilibrium 'when 0= 0.Fig.P6.133arrow_forward
- A freight wagon is at rest on a track at an angle of 25o to the vertical. The gross weight of the wagon and its load is 36kN and acts at a point 750 mm from the track, in the middle between the two axles. The wagon is held by a cable 600 mm from the track. Determine the traction on the cable and the reaction on each pair of wheels.arrow_forward6.70 A uniform cable weighing 15 N/m is suspended from points A and B. The force in the cable at B is known to be 500 N. Using the result of Prob. 6.69, calculate (a) the force in the cable at A; and (b) the span L. B 8 m 4 m Fig. P6.70arrow_forwardThe uniform 10 kg rod AB is supported by a ball and socket joint at A and by the cord CG that is attached to the midpoint G of the rod. Knowing that the rod leans against a frictionless vertical wall at B and that the tension in the cord CG, TCG=52.1 N, determine the following a.) Which of the following best shows the equivalent force-couple set at point A of the tension at cord CG, TCG? Choices: a F= -36.8 N i + 24.5 N j - 27.6 N k M = -7.36 Nm i - 11.03 Nm j b F= -36.8 N i + 24.5 N j - 27.6 N k M = -7.36 Nm i - 29.4 Nm k c F= 36.8 N i - 24.5 N j + 27.6 N k M = 7.36 Nm i + 11.03 Nm j d F= 36.8 N i - 24.5 N j + 27.6 N k M = 7.36 Nm i + 29.4 Nm k b.) Which of the following moments is equal to zero? Choices: The moment of the tension in cord CG, TCG about point OThe moment of the tension in cord CG, TCG about point AThe moment of the tension in cord CG, TCG about point BThe moment of the tension in cord CG, TCG about axis ABarrow_forward
- The telescoping arm ABC of Prob. 6.93 can be lowered until end C is close to the ground, so that workers can easily board the platform.For the position when θ = -220°, determine (a) the force exerted at B by the single hydraulic cylinder BD, (b) the force exerted on the supporting carriage at A.arrow_forwardUsing the method of joints, determine the force in each member of the trussshown. State whether each member is in tension or compression.arrow_forwardFor the given loads w = 28 KN/m and M=70 KN.m is supported as shown by a roller at D and a hinge at D W kN/m M kN - m 1m- 3 m- 2 m Magnitude of reaction at D is (KN) а. 56 b. 140 c. 112 d. 168 e. 196 Magnitude of reaction at A is (KN) а. 126 b. 168 c. 112 d. 56 е. 28 Shear force just to the right of D Shear force just to the left of D Bending moment just to the right of B (KN.m) a. -28 b. -42 C. -56 d. -70 e. -84 Maximum absolute value of bending moment (KN.m) isarrow_forward
- Elements Of ElectromagneticsMechanical EngineeringISBN:9780190698614Author:Sadiku, Matthew N. O.Publisher:Oxford University PressMechanics of Materials (10th Edition)Mechanical EngineeringISBN:9780134319650Author:Russell C. HibbelerPublisher:PEARSONThermodynamics: An Engineering ApproachMechanical EngineeringISBN:9781259822674Author:Yunus A. Cengel Dr., Michael A. BolesPublisher:McGraw-Hill Education
- Control Systems EngineeringMechanical EngineeringISBN:9781118170519Author:Norman S. NisePublisher:WILEYMechanics of Materials (MindTap Course List)Mechanical EngineeringISBN:9781337093347Author:Barry J. Goodno, James M. GerePublisher:Cengage LearningEngineering Mechanics: StaticsMechanical EngineeringISBN:9781118807330Author:James L. Meriam, L. G. Kraige, J. N. BoltonPublisher:WILEY