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Dimensions are in meter 2. EVALUATE THE INDICATED BAR FORCES IN THE PIN CONNECTED TRUSSES :...
Determine the axial forces in the indicated members of the following trusses (Nar Na) (15 points) Score BOEN 2/4 Constract the internal foree diagrams (15 points) Determine the axial forces in the indicated members the following trusses (NRE Nac). (15 points) Score 30kN 30kN 2/4 Compute the magnitude of bending moment M section C by using the influence line. (15 points) Score S0KN Determine the horizontal displacement ( Δ CH) Score C by graph-multiplication method. El-constant.
Determine the axial forces...
Rigid bar is supported by a pin-connected axial bar (1) and a pin connection at C as shown in Figure Q1. Member (1) is a 20 mm wide by 9 mm thick rectangular bar made of Steel Alloys (A992). The total strain in bar (1) is measured as 925 ue (925x10°). The pin at C has an ultimate shear strength of ty = 345MPa. Determine: (a) The axial force in member (1). [9 marks] (b) The factor of safety in...
1) Rigid bar ABC is supported by pin-connected axial member (1) and by a pin connection at C, as shown in the figure. A concentrated load is applied to the rigid bar at A. Assume P = 5,300 b, a = 20 in, b= 30 in., c = 13 in., and d = 28 in. Determine the magnitude of the maximum internal shear force within pin C. A. 3670 lb B. 3720 lb C. 3850 lb D. 3940 lb E....
Bar B of the pin connected system is made of aluminum alloy
(E=105 GPa, A=1200 mm^2) and bar A is made of a hardened carbon
steel (E=210 GPa, A=1200 mm^2). Bar CDE is rigid. When the system
is unloaded, Bars A and B are unstressed.
Determine:
a) The Normal Stress in bars A and B. (5pts)
b) The Shearing Stress in the 20-mm diameter pin E which is in
double shear. (5pts)
c) If the yield stress of the material...
6.32 through 6.38 Determine the components of the forces acting on each member of the pin-connected frame shown. r = 1 ft 4 ft 3 ft 2 ft Joha 2.0 kip - 4 f 4 ft PROB. 6.37
5) Two rigid members (AE and ABCD) are connected by a pin at A. CK is another rigid bar supported by a fixed-end at K. The contact at C is frictionless and D is and the tension on the cable AH is 52 kN, a roller. If the system is in equilibrium a) draw free body diagrams of all rigid members (AE, ABCD and CK), b) determine P (kN) w (kN/m), all reaction forces (or force components) at A, C,...
The pin-connected structure shown in Fig. 5 consists of a rigid bar ABCD and two 1,500-mm-long bars. Bar (1) is steel [E=200 GPa] with a cross-sectional area of A1 = 510 mm2. Bar (2) is an aluminium alloy [E-70 GPa] with a cross-sectional area of A2 1,300 mm2. All bars are unstressed before the load P is applied. If a concentrated load of P 200 kN acts on the structure at D determine: (a) the normal stresses in both bars...
Q.3) In the frame shown, members AB, BC, CD, DEF and AF are pin-connected and supported by rollens at C, F and a pin support at D. Det ermine all support reactions and forces acting on members DEP and DC 2 3 kN/m 10. 2 m 2 m 2
Q.3) In the frame shown, members AB, BC, CD, DEF and AF are pin-connected and supported by rollens at C, F and a pin support at D. Det ermine all support...
e rigid bar is supported by the pin-connected rod CB t has a m 6061-T6 Part A area of 20 mm2 and is made Determine the vertical deflection of the bar at D when the distributed load is applied Express your answer to three significant figures and include the appropriate units re 1 of 1 Units Submit 300 N/m 2 m
PROBLEM 2: The figure below shows a four bar linkage and its dimensions in meters. The steel crank, coupler, and rocker have uniform cross sections of 50mm wide and 25mm thick. In the instantaneous position shown, the crank O2A has an angular velocity of 15 rad/s and an angular acceleration of -10rad/s2. The vertical force at point P, F-500 N.Find all the pin forces and the torque required to drive the crank O2A at that instant. (feel free to use...