Compute the forces in the two angled
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Compute the forces in the two angled rods in Figure below for an applied force, F = 1500 lb, if the angle u is 45°.
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- At a full d raw, an archer applies a pull of 130 N to the bowstring of the bow shown in the figure. Determine the bending moment at the midpoint of the bow.In the following armor find the forces in the members CD, KD and JK of section 1-1 indicated in the figure.O Compute the forces in the two angles rods in picture below, For applied foree, F= I500 1b, if the angle O is an 45°
- In the figure below, all the bearings are movable bearings and the C bearing is in an inclined position. Draw the M, N, T diagrams according to your force values. (20kN force is perpendicular to the beam it acts on. P1, P2, P3 forces are in the vertical direction.) q=7 kN/m P1=25 kN P2=27 kN P3=11 kNIn the given figure below, a tube was supported at A and E with a ball and socket and a wire at D connected to F. Determine the following give that Force F is equal to 690.86 N. Note: Express your answer in terms of the units. Observe 3 decimal places. 1.) Determine x-component of vector DF. 2.) Determine the y-component of Vector DF 3.) Determine the z-component of Vector DF. 4.) Determine the moment experienced by the system assuming that there is no wire support.QUESTION 2: For the nose landing gear of an aircraft shown in the figure, calculate the internal forces at the vertical section at point A. -150 mm 20 mm- 60° 300 mm -175 mm 12 kN
- 3-4 Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of each force using an algebraic or vector method, as specified. F=400 N. 30° B 60° 2 1.9 m 0 9 m C D 60° E xThe cable carrying three 400-N loads has a sag at C of hC = 14 m. Calculate the following: 26.1 The magnitude of the tensile force in segment AB is Blank 1 N. 26.2 The magnitude of the tensile force in segment BC is Blank 2 N. 26.3 The magnitude of the tensile force in segment CD is Blank 3 N. 26.4 The magnitude of the tensile force in segment DE is Blank 4 N.Sketch a free-body diagram of each element in the figure below. Find the magnitude and direction of each force using an algbriac or vecter method.
- determine the horizontal and vertical reaction forces in the figure below+ The forces are given in figure and applied as shown. F = 50 kN and F3 F, F, = 100 KN F3 = 30 KN. 150mm - 350 mm- The diameter of Grular bar is UO mm. 0 and To . Calculate theThe shelf bracket is subjected to the force F = 336 Newtons at an angle 0 = 25.5°. Compute the moment (in N-m) that this force exerts about each of the two attachment points (screw locations in the figure). Take counterclockwise moments to be positive. a F 2013 cc CC Michael Swanbom BY NC SA Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value a 48.0 cm 45.6 cm 4.10 cm The moment about the upper attachment point is N-m. The moment about the lower attachment point is N-m. luk-