Problem #2 (50 point): The bracket BCD is hinged at Cand attached to a control cable...
Problem 1 Member BCD is supported by a pin at Cand cable AB. Determine the reaction at the pin and the force on AB 240 N DION D - 0.
Question 1 A rod AB hinged at A and attached at B to cable BD supports the load shown. Knowing that d 200 mm. determine: a) the tension in cable BD b) the reactions at A Copyright © Th.ko raw-H. Companies Inc. Permission requred for reprodepan or disse, 100 mm 90 N 90 N -100 mm100 mm100 mm
Question 1 A rod AB hinged at A and attached at B to cable BD supports the load shown. Knowing that d...
Problem k - 2.5 m - Body A, a 50 kg train signal, is attached to beam B of mass 250 kg. Bis suspended from a rigid support by a hinge and a cable. The geometry of the system is shown at right. – hinge a) What is the tension in the cable? Be sure to include a detailed free body diagram to accompany your analysis. -- 2.0 m B b) What is the magnitude of the force provided by...
1. A block that weighs 1200 N is suspended as shown from the end of beam AB, which is weightless and is hinged to the wall at A. The beam is 5 m long. The 4 m long cable is attached to point C, which is 3 m from point A along the beam. The cable is perpendicular to the beam a) Draw and label the free-body diagram for the beam, showing all of the forces acting on it. (10...
e body diagrams and write down Note: in all problems show your work, Draw the free body diagrams and write do equations. 25%405 x 0.8-m gate AB is located at the bottom of a tank filled with water. The gate i hinged along its top edge A and rests on a frictionless stop at B. Determine the minimum tension reauired in cable BCD to open the eate. (specific weight 100 00 N/mA3) 0.2 m 0.3 m 0.4 m 0.3 mi
The brake system ABC has a lever which is hinged at the point C and is attached to a control rod at B. a 400 N force is applied at b Determine a. The tension in rod AB b. The reaction at C
for problem 2, part b, perpendocular to rod ABC not
ABD!
Problem 1. The force P is applied to the cable at the frictionless pulley C to hold the 1200N weight in the equilibrium position shown in the figure. Determine: (a) the magnitude of the force P, (b) tension in cable AB, and (c) tension in cable BC, Please draw the free body diagram of the particle under consideration clearly. B 28 200N Problem 2. A force F of magnitude...
2. (50 points) A uniform rod of length L and mass m is hinged to a wall at one end and suspended from the wall by a cable that is attached to the other end of the rod at an angle of B to the rod (see figure below). Assume the cable has zero mass. There is a contact force at the pivot on the rod. The magnitude and direction of this force is unknown. In this problem you will...
1) Cutting a free-body diagram
around point B, find the tensile force in cable AB
2)Using the same free body diagram around point B, find the
compression Force in the boom CB
3)Find the horizontal reaction at point A
4)Find the vertical reaction at point A
5)Find the horizontal reaction at point C
6)Find the vertical reaction at point C
12 ft MC Problem #3 12 45° F = 20 kips 2 F 25 kips 1 7 ft 45°
7.2 For the structure below, determine the reaction forces at C and the tension in cable AB if P=50 N. (Ans. TAB-100 N, C,-100 N, C,-50N) 45/ 7.3 The beam below weighs 200 N and is pinned at point O. Determine the tension in cable AB and the reaction forces at O for the loading shown. (Ans. TAB- 472.81 N, Ox 428.37 N, Oy 100 N) 25° 10 m 100 N