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
1) Cutting a free-body diagram around point B, find the tensile force in cable AB 2)Using...
Find the moment diagrams and sharp forces of the sheer. A) cutting equations B) Cutting Diagram C) Moments Diagram Next Problem: Find cutting diagrams and flexing moment of the sheer, as well as identifying its maximum and minimum values. 0.8 kN/m Im 3 m 20 kips 12 kips 1.5 kips/ft 6 ft 0.8 kN/m Im 3 m 20 kips 12 kips 1.5 kips/ft 6 ft
what is the vertical and horizontal reaction force at point B and the force found on cable AC? A member (AB) having a uniform distributed weight of 392.4 N/m is supported by a cable (AC) as shown. The member supports a block having a weight of 4905. Find the tension force in the cable and the horizontal and vertical reaction forces at the pin-connection at B. Neglect the weight of the cable. 7m 5m 12m W - 4905N OCO DHI...
All calculations need the counting processand Free Body Diagram. 1. Determine the normal force, shear force, and moment at point C. (15 Points). 4 kip 3 kip/ft B А С -3 ft-2 ft- 6 ft + 6 ft
All calculations need the counting processand Free Body Diagram. 1. Determine the normal force, shear force, and moment at point C. (15 Points). 4 kip 3 kip/ft B А С - 3 ft --2 ft- 6 ft + 6 ft
a=6 b=6 c=2 3. Find a reaction forces at A and B using the free-body diagram of the entire truss (10p). b. determine the force in members BC, BE and EF of the truss. Indicate whether the members are in tension or compression (10p). Take =Last number of your ID b = Second number of your ID (m) P = Eighth number of your ID a (kN) If any term (a, b or P) is zero, take 1. 1 D...
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...
Problem 1 Equilibrium of a Body in 2D (50pts) The ramp of a ship has a weight of 500 lb and a center of gravity G. An operator weighing 180 Ib is standing at point E, 4.5 ft from A, as shown. Determine the tension on the cable CD needed to just start lifting the ramp, i.e when the reaction at B becomes zero. Also, determine the horizontal and vertical components of force at the hinge at A. Show Free...
unsure on what to do here A simple truss is shown in the diagram below. Point Bis on rollers and point kis pinned. Using the Method of Sections, determine the reactions at the supports and the forces in members AD and CE -12-12-124- P2 | Р, P1 D G 9 ft OL c O BO ola •Kx B P1 - 22 kips P2 - 25 kips P3 - 19 kips What is the upward vertical reaction in kips at point...
2. The following is the free body diagram of the arm showing the vertical and horizontal components of the force exerted by the deltoid muscle measured in Newtons (N). Fv Fpeltoid FH o01m 0.1m 40N 025m The horizontal FH and vertical Fy components of the deltoid muscle force for the configuration shown above satisfy the following system of equations: Fv 0.22FH 0 0.10Fv 0.01F 0 a) Find Fy and Fu using the substitution method. (5 points) b) Write the system...
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