A worker tries to move a rock by applying a 360-N force to a steel bar as shown, (a) Replace that force with an equivalent force-couple system at D. (b) Two workers attempt to move the same rock by applying a vertical force at A and another force at D. Determine these two forces if they are to be equivalent to the single force of Part a.
(a)
An equivalent force-couple system applied at D to replace the force at B.
Answer to Problem 3.85P
Thus the force-couple system at D to replace the force at B is
Explanation of Solution
Refer Fig P3.85.
Write the expression of the force at D in component form.
Here
Write an expression of the vector connecting point B and D.
Here
Write an expression for the couple at D.
Here
Conclusion:
Substitute
Substitute
Substitute the value of
Thus the force-couple system at D to replace the force at B is
(b)
Two forces at A and D to replace the force in section (a).
Answer to Problem 3.85P
Thus the vertical force at A is
Explanation of Solution
Refer Fig P3.85.
Write the expression of couple at D.
Here
Write the expression of the
Here
Write the expression connecting the forces at A, D and B with the force in the section (a).
Here
Conclusion:
Substitute
Substitute
Solve the above equation to get
Substitute
Write the expression for the magnitude of
Write the expression for the angle made by
Thus the vertical force at A is
Want to see more full solutions like this?
Chapter 3 Solutions
EBK VECTOR MECHANICS FOR ENGINEERS: STA
- Identify the conditions under which a given system of forces can be reduced to a single force (Check all that apply) O One can replace the force -couple system at O by a single force R acting along a new line of action if R and M, are mutually tangential. One can replace the force -couple system at O by a single force R acting along a new line of action if R and M, are mutually perpendicular. O One can replace the force -couple system at O by a single force R acting along a new →R line of action if R and M, are mutually parallel.arrow_forwardA 160-lb force P is applied at point A of a structural member.Replace P with (a) an equivalent force-couple system at C, (b) an equivalent system consisting of a vertical force at B and a second force at D.arrow_forward.******** -5 in. A 30-Ib vertical force P is applied at A to the bracket shown., which is held by screws B and C. (a) Replace 2 in. P with an equivalent force-couple system at B. (b) B Find the two horizontal forces at B and C that are 3 in equivalent to the couple obtained in part a. ********* ******** *arrow_forward
- Knowing that = 22° and Mc = 530 ft-lb, reduce the force-couple system shown to a single equivalent force, and determine where the line of action of that force intersects member CB measured from C. Enter the distance from C to the line of action of the single equivalent force below in ft to the nearest 0.01 ft. Enter a positive number if the intersection is right of point C and al negative number if the intersection is left of point C. Mc 50 lb 150 lb -3 ft- B 2 ft 4 ftarrow_forwardthe force and a couple are applied to the beam in an attempt to lift it. replace this force system by an equivalent force-couple system with the force acting at (a) point A; and (b) pointBarrow_forwardA couple M and three forces P-6 lb, Q-27 lb, and R = 46 lb shown are applied to an angle bracket as shown. a 14 in and b-6.5 in. First, reduce the three forces to an equivalent set of forces Bz, By and couple CB at B. Second, determine the magnitude (with the correct sign, (+) for counter-clockwise and (-) for clockwise) of the couple M so that the final equivalent system has zero couple and consisting only of forces at B NOTE: Give the answer up to THREE significant digits. M P a Q 60° b Rarrow_forward
- Knowing that = 36° and Mc = 350 ft-lb, reduce the force-couple system shown to an equivalent force and couple at point B. Enter the magnitude of the couple at B below in ft-lb to the nearest whole ft-lb. Enter a positive number if the couple at B is CCW and a negative number if the couple at B is CW. 4 Mc 50 lb 150 lb -3 ft- A 2 ft 4 ftarrow_forward3.2 Two forces and a couple are applied to the beam in an attempt to lift it. Replace this force system by an equivalent force-couple system with the force acting at (a) point A; and (b) point B. 2m 36 kN b 3 m 20 kN 2 m B 94 kN-m Xarrow_forward3arrow_forward
- 2.3 The magnitude of the three forces applied to the eye bolt are T1= 489 N, T2= 178 N, and T3= 667 N. Replace these forces with a single equivalent force R. Show the result on a sketch of the eye bolt.arrow_forwardForce P and couple M are applied at A as shown. 1. Suppose an equivalent system was made such that only force at B and a couple are present. What gives the magnitude of force at B and the couple in the equivalent system? 2. If the force P and couple M is to be replaced with a single force, where is the point of application of this single force along bar ABCD in order to have the same external effect as the original set of force P and couple M? (How many m to the left or right of B)arrow_forward3.104 Five separate force-couple systems act at the corners of a piece of sheet metal, which has been bent into the shape shown. Determine which of these systems is equivalent to a force F = (10 lb)i and a couple of moment M = (15 lb - ftj + (15 lb - ft)k located at the origin. 5 Ib-ft 15 Ib-ft 5 Ib-ft 5 lb-ft 15 Ib-ft 10 lb 10 lb 15 Ib-ft B 2 ft 25 Ib-ft 10 lb 80 lb-ft 2.5 ft 10 lb 15 Ib-ft 2 ft 10 Ib 2 ft' 15 Ib-ft Fig. P3.104 Luarrow_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