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All force units in Newton (N)
(a) Draw the free-body diagram for the steel beam with applied and reaction forces. [4 marks]...
Determine the tension in the cable and reaction forces at A. (A) Draw the free-body diagram of the beam. (B) Determine the tension in the cable and the reaction forces at A 30° 30 in 800 1b 30 in 4-30 in
9. A truss and a steel cable are supporting a mass of m = 20 kg as shown. A cable is supported by a frictionless pulley at point B for L = 500 m, d = 200 m, and h = 300 m. (a) (2 marks) Draw a free-body diagram and show all forces that act on this structure (b) (1 mark) Find the magnitude of the tension force in the steel cable, (c) (3 marks) Find the x and...
Please make sure to draw the free body diagram clearly and explain throughly :) 4. A uniform beam of mass 50.0kg supports a 75.0kg load at a point 3/4 of it's length from the hinge pin as shown below. You pull down on the cable at point P causing a tension with magnitude T in the cable. The beam is in equilibrium. 3.75m 3.00ml 1.25m I 1.75m 4,00m -- ----- 2.00m 75.0kg (a) (2 points) Draw the free body diagram...
please include a free body diagram for explanation amd how to solve 2. A steel beam has a length of 8.0 meters and a mass of 175 kg. It is placed on a fulcrum 2.5 meters from the left edge. A concrete block of mass 120 kg is placed 3.5 meters to the right of the fulcrum. Clearly, the beam would rotate clockwise in this situation. To prevent the rotation, a vertical cable is connected to the right edge of...
draw free body diagram, draw coordinate system, isolate object from its supports , add applied forces and body force to object , determine known and unknown variables , resolve force vectors into components , write the equilibrium equations , choose points about which moments rotate and show + direction , substitute values for the variables and solve for unknowns rthe trusses shown below, neglect self-weight, and do the following: (a) Draw a free body diagram and solve for the reactions....
draw a free body diagram, explain why the forces of friction are in the directions drawn, a derive an equation of motion for mass A and mass B, in terms of acceleration and Tension (T) Exercise C. A pulley problem (10 points) In this problem we are interested in the pulley-mass system shown in Error! Reference source not found. Treat both mass A and mass B as particles. ma = 1300 kg mg = 400 kg HA=0.06 HB = 0.13...
set up free body diagram and help solve for equilibrium Problem 2 The inclined beam has a mass of 120 kg and center of gravity at G. The beam is supported by a roller at A, cable AB, and a smooth peg in a slot at C. The 1500 N force is perpendicular to the beam. Calculate the reaction forces at these supports
Draw the free-body diagram of the member ABC, which is supported by a pin at A and a horizontal short link BD. Neglect the weight of ABC and determine support reactions at A and B. 0.5 m 30° 50 kg
PLEASE DRAW THE FREE BODY DIAGRAM Problem 2: (30 points) Find the tension, T, that must be applied to pulley A to lift the 1200 N weight. 1200 N
In the diagram below, a street light m is hung from a horizonal beam; the beam is supported by a pin at P and by the cable (cord) from the end of the beam to the upper part of the pole. Give n that the beam is uniform and has a mass of 108.3 kg, the angle theta = 35 degree, x_2 = 3.55 m, x_1 = 2.18 m, and that the mass of the street light is m =...