Member AB is supported by cable BC, and at support A by a square rod which fits loosely through the square hole in the collar fixed to the member as shown. Given that a = 1.5 m, b = 3.1 m, c = 1 m, F₁ = 150 N and F₂ = 500 N, determine the magnitude of the x-component of the reaction moment (in kN-m) at support A to hold the rod in equilibrium. Your Answer: Answer Fi

Member AB is supported by cable BC, and at support A by a square rod which fits loosely through the square hole in the collar fixed to the member as shown. Given that a = 1.5 m, b = 3.1 m, c = 1 m, F₁ = 150 N and F₂ = 500 N, determine the magnitude of the x-component of the reaction moment (in kN-m) at support A to hold the rod in equilibrium. Your Answer: Answer Fi

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter4: Coplanar Equilibrium Analysis

Section: Chapter Questions

Problem 4.125P: The figure shows a three-pin arch. Determine the horizontal component of the pin reaction at A...

See similar textbooks

Similar questions

The cable AOB weighs 5.2 N/m. When the horizontal 30-N force is applied to the roller support at B, the sag in the cable is 5 m. Find the span L of the cable.
The compound beam is supported by a roller at point C, fixed at point A, and the two sections are pinned at point B. It is subjected to a free couple moment M, a distributed load with maximum load intensity w, and a concentrated force F. If the distributed load w = 0.6 kN/m, the concentrated force F = 0.6 kN, and the free couple moment M = 0.8, determine the magnitude of the support reaction (in kN) at pin B. Answer must include 2 places after the decimal point.
Find the horizontal and vertical components of the reaction at support C (+x to the right, +y upward), given: P1 = 260 N (P1 acts midway between A and B), P2 = 280 N, P3 = 100 N, L1 = 5 m, L2 = 3 m, L3 = 3 m, L4 = 4 m, L5 = 3 m, θ = 15 °.
A bent pipe is connected by a thrust bearing and a cable asshown. If a Force, F = 195 lb, is applied, what are the reactions at the thrust bearing and in the cable. The dimensions shown are a = 7.2 ft, b = 6.2 ft, and c = 4.6 ft.
The beam ADCB is supported by a pin at A and fixed at B A) Determine the magnitude of the reaction moment at B B) determine the magnitude of the horizontal reaction force at B
The L-shaped body is supported by a roller at B and a frictionless pin at A. The body supports a  vertical force FC at C and a  CCW couple-moment MD at D. Given, FC = 245.8 lb., and MD = 501 lb.ft. A) Determine the reactions at B , express in a cartesian vector.
1. the tow truck's front wheels will belifted off the ground if the moment of the load W about the rear axle exceeds the moment of 3000N weight of the truck. Determine the largest w that may be safely applied 2. the flat plate shown in the figure is acted on by the three couples. replace the three couples with two forces, one acting along the line OP
2. The spherical steel weighs 15 kN with a diameter of 6 m. The lengthof distance AB is 8 m.Determine the following:a.) The Tension at Point A.b.) The Reaction at Point B.
The 6 m uniform rod as shown below weighs 1000 N. Segment AB and BC is 4 m long. The cable acts at a third length of the rod. Determine the following: a.) The Reaction at Point A. b.) The Tension at Point D. c.) The Reaction at Point C.
Use the Section Method to find member forces EA, BE, and CB. P = 4 kN
Which of the following gives the moment MD about point D of the tensile force TBA exerted by the wire at point B? Note that rB/D = (4i - 6k) m and TBA = (-8i + 6j + 4k) kN and that MD = rB/D x TBA. a. (36.0i + 32.0j + 24.0k) kN-mb. (48.0i + 24.0j + 16.0k) kN-mc. (-36.0i - 32.0j - 24.0k) kN-md. (16.0i - 12.0j -8.0k) kN-m
The 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, Which of the following best approximates the moment of the tension in cord CG, TCG about the x axis? Choices: -11.03 N-m5.52 N-m29.4 N-m-7.36 N-m