**Problem: Analyzing Forces in a Suspended Trough**The trough of concrete weighs \(700 \, \text{lb}\).**Task:**a. Choose a correct free body diagram of the cable's ring \(A\).The image shows four possible free body diagrams labeled A, B, C, and D, depicting the forces acting on point \(A\):- Each diagram features two cables, \(AB\) and \(AC\), forming \(30^\circ\) angles with the vertical, and a force \(F\) acting vertically downward.- The orientation and direction of forces vary among the diagrams.b. Treating the ring as a particle, determine the tension in cables \(AB\) and \(AC\).(Express your answers using three significant figures.)\[AB = \underline{\phantom{aaaa}} \, \text{lb}\]\[AC = \underline{\phantom{aaaa}} \, \text{lb}\]

Answered: Image /qna-images/answer/ff8e87d4-b1c3-489c-8a14-e2dadf178136.jpg

Answered: The trough of concrete weighs 700 lb.…

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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The rod is supported by a ball and socket joint A and cables BD and CD. Suppose that w=900 N/m. Determine the components of reaction at the ball and socket joint A using scalar notation. Determine the tenstion in the supporting cable DB. Determine the tension in the supporting cable DC.
* Incorrect The 53-kg cylinder is suspended from a clamping collar at C which can be positioned at any horizontal position x between the fixed supports at A and B. The cable is 8 m in length. Determine and plot the tensions in cable segments AC and BC as a function of x over the interval 0 ≤ x ≤ 7. Do your plot on a separate piece of paper. Then answer the questions to check your results. Questions: 7 m C 53 kg (a) If x= 2.6 m, the tension in cable AC is (b) If x= 4.9 m, the tension in cable BC is B i i 55.6 55.7 N N
Member AB is supported by a cable BC and at A by a square rod which fits loosely through the square hole in the collar fixed to the member as shown in the figure. Suppose that F1 = 190 N, F2 = 390 N and the rod holds in equilibrium. Determine the components of reaction force at A using scalar notation and tension in the cable. Determine the components of the moment of reaction at A using scalar notation.
Item 2 Consider the following hanging mass system for the following problems. Before answering the questions below, draw two separate free-body diagrams of ring C and then ring B. Be sure the FBDS are neat a properly labeled. You will turn them in with your written work. (Figure 1) Figure 30° E 45° F 1 of 1 Part A cb Deturmine the tension developed in cable if cylindar E weighs 40 lb and 0= 15°. FCB= Submit ▾ Part B WF = 5 ΑΣΦ 11 vec Submit Request Answer If cylinder E weighs 40 lb and 0 = 15°, determine the weight of cylinder F. Express your answer with the appropriate units. 15. ΑΣΦ ↓↑ vec ? Request Answer ? lb 2 of 5
A ski resort chair lift has towers spaced 44 m horizontaly appart. The upper tower is 15 m higher than the previous tower. If the chairs are 14 m horizontally appart and the first chair is 5 m past the lower tower what is the tension on both ends of the cable? The mass of each chair is 350 Kg and the height above the lower tower for each chair's attachment to the cable is 0.55624 m, 4 m, 9.33 m. Lower Tower Cable Tension = Upper Tower Cable Tension = KN. kN.
solve fast i need clear ans and solve very very fast in 20 min and thank you |
Two weights, A and C, are fixed to a bar, B. Their masses are: A = 60 kg, B = 230 kg,C = 45 kg. B is, in turn, connected to a fixed vertical post by a hinge and a support cableD. The geometry of the system is shown at right. Treat weights A and C as point masses a)What is the tension in support cable D? Be sure to include a detailed freebody diagram to accompany your analysis.b) What is the magnitude of the force provided by the hinge?c) What is the moment of inertia of the A + B + C as a rigid system, for rotationabout the hinge? For analysis, break the beam into a short piece to the left of thehinge, and a separate longer piece to the right of the hinge. If the support cable D on should break,d) what is the angular acceleration of the beam and weights at the moment the cable breaks?e) what is the magnitude of the linear acceleration experienced by each of the weights, A and C, at moment the cable breaks?
PROBLEM 1: Determine the tension in each cable and the components offorce reaction at D needed to support the load. Required: 1. Find dx, dy, and dz 2. find tension ab and tension ac
The traffic light shown in (Figure 1) has a mass of21 kg . Take h= 3.5 mm.
Please help me to get the solution ..
Find the horizontal and vertical reactions at the pin at B. Note that the support at D is fixed. Sign convention for the positive x and y direction applies for the answers. Diagram not to scale Answers: (a) -4 kN, 2 kN (b) 4 kN, -2 kN (c) 1.5 kN, 3 kN (d) -1.5 kN, -3 kN 3 kN B A D TTT 2 m 4 kN 2 m C 1m 2 m 5 m
2. The 6-kg frame AC and 4-kg uniform slender bar AB of length / is free to slide along a smooth fixed horizontal rod. a. Find the tension in the wire BC for a static case where the frame and bar are stationary. b. Now, with the the 80 N force applied find the tension in the wire BC. 60° to Q B 60° -80 N -x

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