MU-MIMO10.hrsa Fast Wireless Speed Up to 10-Hours Battery Life3.3 COPLANAR FORCE SYSTEMS97FUNDAMENTAL PROBLEMSAll problem solutions must include an FBD.13-1. The crate has a weight of 550 lb. Determine theforce in each supporting cable.F3-4. The block has a mass of 5 kg and rests on the smoothplane. Determine the unstretched length of the spring.30DA-200 N/m0.3 m0.4 mProb. F3-1F3-2. The beam has a weight of 700 lb. Determine theshortest cable ABC that can be used to lift it if the maximumforce the cable can sustain is 1500 lb.Prob. F3-4F3-5. If the mass of cylinder C is 40 kg, determine themass of cylinder A in order to hold the assembly in theposition shown.B30DB40 kg10 ftProb. F3-2F3-3. If the 5-kg block is suspended from the pulley B andthe sag of the cord is d = 0.15 m, determine the force in cordABC. Neglect the size of the pulley.0.4 nProb. F3-5F3-6. Determine the tension in cables AB, BC, and CD.necessary to support the 10-kg and 15-kg traffic lights at Band C, respectively. Also, find the angle .4- 0.15 mKEY157#Prob. 13-63HIGH DEF

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Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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10 kN 10KN 10KN 3m 3n 3m 16 13 SOLVE FOR THE FORCES MEMBERS CF AND EH USING THE MGTHOD OF JolNTS, NDICATE IF IT Is A TENSION OR A Com PRESSION MEMBER.
The three-plate moment connection shown below are all shop- welded to the column and then field bolted to the girder. The beam is a W18 55 that has a factored moment of Mr = 382 kip ft and a factored shear of V₁ = 65 kip. All plates are A36 steel (Ex = 36 ksi. Fu = 58 ksi). Plate 2 is connected to the girder using four bolts as shown. All bolts for the connection are 7/8" diameter A325-X. Plate2 Plate 1 2.00" 2.75" 2.75" 2.75" 2.00" Plate3 W18 55 3.00" 2.50" (a) Design Plate 1, including the required number of bolts and dimensions of the plate. Assume an E70XX weld to the column. Consider limit states only for the plate itself. That is, you do not need to consider limit states for the beam or column. (b) For which plate(s) will you need to check the buckling capacity, Plate 1, 2, and/or 3? Explain.
Detailed Calculation - RCD
Determine the reactions given the force acting on the structure below. THIS IS AN EXAM. DO NOT DUPLICATE O THIS IS AN EX 12 ft 3ft, DUPLICATE O IS THIS SKAM. DO NOT DUPLICATE O DO NOT DUPLICATE O THE 5ft THIS 5 ft THISA THIS IS THIS IS A EXAM. COT DUPLICATE O DO NOT DUPLICATE O DO NOT DUPLICATE O EXAM. DU NO45°LICATE O EXAM. DO NOT D 150 lbs ATE O EXAM AXAS 5ft
can you explain pls how we find 12(removed connection) part??
The bearing-type-in. A325 bolts of the connection of Fig. have an al- lowable strength = (0.6)(30) = 18 k. Locate the instantaneous center of rota- tion of the connection, using the trial-and-error procedure, and determine the value of P. O O -5 in. F O +3 in. O P 6 in.
Identify all ZERO force members.
E/Y Q4. Select the diameters of the ties AB and CD (see figure) if the load P is 10 t, and the allowable stress [σ] for the material of the ties is 1000 kg/cm2. Answer: CIAB - 424 mm; dc0 = 25.2 mm P 1m 1 B D -im- -Im- im
The three-plate moment connection shown below are all shop- welded- to the column and then field bolted to the girder. The beam is a W18 55 that has a factored moment of Ma = 382 kip ft and a factored shear of V. = 65 kip. All plates are A36 steel (E = 36 ksi, Fu = 58 ksi). Plate 2 is connected to the girder using four bolts as shown. All bolts for the connection are 7/8" diameter A325-X. Plate 1 Plate2 2.00" 2.75" W18 55 2.75" 2.75" 2.00" `Plate3 3.00" 2.50" (a) Design Plate 1, including the required number of bolts and dimensions of the plate. Assume an E70XX weld to the column. Consider limit states only for the plate itself. That is, you do not need to consider limit states for the beam or column. (b) For which plate(s) will you need to check the buckling capacity, Plate 1, 2, and'or 3? Explain.
2- Tbenveted type connection will be used to assemble the gven steel members. Detemie the safe load that a sincle rivet ca carry. Consider only the effeet of crushing stresses. (St-52. 112) (-10 ா.ார்பா a) O 5,04 t b) 3.36t 7.20 t |8.12 t OBoş birak
Classify structurc shown bclow as stablc or unstablc. If stablc, dcterminc whcther statically determinate or statically indeterminate. Explain your reasoning. If statically indeterminate, specify the degree of statical indeterminacy. Telles lixed

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