Find 3d equations of force and moments for both of the diagrams
support all reactions.find resultant force and moments.
Support all reaction.Find f1,f2,f3 and resultant
force.Find Mx,My,Mz and moment.
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Find 3d equations of force and moments for both of the diagrams support all reactions.find resultant force and m...
Find the equivalent resultant force and couple system at points O and D, given: F1 = 45 lbs, F2 = 20 lbs, F3 = 15 lbs, L1 = 8 ft, L2 = 6 ft, L3 = 5 ft, x,y,h = 4,3,5, respectively FR = lbs Φ = ° MO = lb·ft MD = lb·ft Find the equivalent resultant force and couple system at point A. Express your answers as Cartesian vectors. MB is parallel to the Z-axis and MC is...
1. Match the following distributed loads with the proper shear and moment diagrams. V w M B X M C 3 Me She l. Mo 2. Which of the following trusses have zero force members? A T A B С 3. Which of the following is true for a typical force vector? a. There can be up to 3 rectangular components. b. The resultant of two force vectors can be obtained using the parallelogram law c. A negative value represents...
For the beam shown in Fig.3, q1= 10kN/m, Mo=15kN.m. a) Find all support reactions. b) Find the expressions for the shear force V and bending moment M. c) Draw the shear-force and bending-moment diagrams. Note that Mo acts at C, and dV/dx = -q, dM/dx = V Calculate (a) the maximum shear stress in each segment; (b) the angles of twist (in d at the mid-span of the larger segment. Given: r-Trllp Ti 91 T: Fig. 2 Fig. 3 q,-10...
For the beam shown in Fig.3, q1= 10kN/m, Mo=15kN.m. a) Find all support reactions. b) Find the expressions for the shear force V and bending moment M. c) Draw the shear-force and bending-moment diagrams. Note that Mo acts at C, and dV/dx = -q, dM/dx = V Calculate (a) the maximum shear stress in each segment; (b) the angles of twist (in d at the mid-span of the larger segment. Given: r-Trllp Ti 91 T: Fig. 2 Fig. 3 q,-10...
Problem 1: (30 points) Draw the shear force (V) and bending moment (M) diagrams for the beam AF given below. (B is a pin support, E is a roller support) Find the support reactions first. You are required to show the magnitude and location of all significant points. You don't have to find the equations defining the shear and moment diagrams unless necessary. However, indicate the order of all curves (e.g. 1" degree, 2nd degree, 3od degree). Ignore the depth...
The line of action of force F passes through point B. Find the moment due to force F about axis AC, given: F̄ = <10, 70, -10> lbs, AX = 6 ft, AY = 3 ft, AZ = 7 ft, BX = 7 ft, BY= 5 ft, BZ = 9 ft, CX = 5 ft, CY = 5 ft, CZ = 1 ft MAC = lb·ft M̄AC= < , , > lb·ft Find the moment about points A, B, C,...
PLEASE CAN YOU SOLVE THE HOMEWORK ACCORDING TO THE ITEMS AND BY STATING WHICH ITEM THE ANSWERS BELONG TO? THE ANSWER IS EXPECTED AS SOON AS POSSIBLE EMEGENCY HOMEWORK The shaft EFG, which is running at constant speed of n (rev/min) and transmitting a power of P (kW), contains gear F. Gear F transmits torque to shaft ABCD through gear C, which drives the chain sprocket at B, transmitting a force P as shown. Sprocket B, gear C, and gear...
Use the graphical method to construct the shear-force and bending moment diagrams for the beam shown. Let a=4.0 ft, b=5.0 ft, c=5.0 ft,d=3.0 ft. w = 7.5 kips/ft and P = 30 kips. Construct the shear-force and bending-moment diagrams on paper and use the results to answer the questions in the subsequent parts of this GO exercise. с D E b For this loading, calculate the reaction forces A, and E, acting on the beam. Positive values for the reactions...
please help! I need help finding and solving equations of equilibrium to find the max tension in the cables and the angle that results in the maximum tension, I also have pictures below of the work I have so far all I really need is equations for the 4 cable part and that's it but I put the whole assignment so you could see thanks! Tower Support System Challenge Challenge Scenario: Due to weather conditions, a major communication tower n...
the list of equations to list are attached! thanks! 6. A playground merry-go-round, i.e., a horizontal disc of radius 3 m that can rotate about a vertical axis through its center, is rotating at an angular speed 1/s (measured, as usual, in terms of radians). The moment of inertia of the merry-go-round with respect to that axis is 3000 kg m? A student of mass 80 kg is standing at the center of the merry-go-round. The student now walks outward...