ET-50"60 CForce ?Suppose rod AB is hinged to a fixed wall. Rope CDE is attached to the rod at C, 4from the hinge. The rope passes over a pulley D. which is mounted on another fixed wall. Theangle ACD is 60 degree. The other end of the rope is connected to a mechanism (not shown), whichrequires 50 lb. force to be actuated. How much downward hand force will be required at point B.5' from the hinge, to actuate the mechanism? When the hand force is applied, what reaction forcewill be developed in hinge A? Assume the rod is weightless, rigid and amply strong and the ropeis flexible and amply strong.

Answered: D T-50 60 C Force ? Suppose rod AB is…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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A truss is facing a two-force member and both of them are in the opposite directions, and the truss is in equilibrium. And both of them are coming to each other. The forces are called Select one: O a. Tensile Forces O b. Compressive forces O c Parallel and collinear forces with same direction of heading O d. The rotational forces Next page est-3 Jump to...
Only ansewr Question 4 Tension:A = 52.03 lb , Tension:B = 21.96 lb ,Tension:C = 38.4 lb
Finding the bar forces by the nodal point method
GIVEN: W= 595 N GIVEN: ANGLE A= 44 DEGREE GIVEN: ANGLE B= 14 DEGREE ANSWER: SOLVE (A) magnitude P in Newton SOLVE (B) reaction Oy in Newton SOLVE (C) reaction Ox at point O in Newton PLS SHOW COMPLETE SOLUTION AND WRITE LEGIBLY AND SHOW THE FREE BODY THE DIAGRAM. PLS SOLVE IN EQUILIBRIUM PLS SOLVE COMPLETE SOLUTION.
Required information NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. A 48-in. boom is held by a ball-and-socket joint at C and by two cables BF and DAE; cable DAE passes around a frictionless pulley at A. 48 in. W B y 20 in. The tension in cable DAE is The tension in cable BF is The reaction at C is - E lb. 16 in lb. lb) i + F For W = 340 lb, determine the tension in each cable and the reaction at C. 30 in. 20 in. lb) k.
Engineering Mechanics (Like/Thumbs-up will be given. Write the solutions&FBD legibly. Include negative sign if in Compression, ex. -1,500 or if in Tension, ex. 1,500. Round to the nearest whole number.) I. (Multiple Choice) From the given A-Frame shown above, which statements are true: a. The horizontal reaction at C is equal to 0 b. The vertical reaction at A is upward c. The horizontal reaction at pins B and D are equal in magnitude d. Member BD is a two-force member e. None of the above II. (Compute for the external reactions for all members of the frame shown): > Vertical Reaction at A > Horizontal Reaction at A > Vertical Reaction at E > Vertical Reaction at D > Vertical Reaction at B > Vertical Reaction at C > Horizontal Reaction at C > Horizontal Reaction at B > Horizontal Reaction at D
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