Answe :- Mpa 45.3
Two axial rods are bonded together and loaded as shown in Figure below. The two rods...
Two solid cylinder rods AB and BC are welded together at B and loaded as shown. Determine the magnitude of the force P for which tensile stress in rod AB has the same magnitude as compressive stress in rod BC. 30 lips B 30 lips 30 m 40 in.
The assembly shown in the figure below consists of solid AB, BC and CD rods connected together, the solid rod AB has 10 mm diameter and 100 mm length, the solid rod BC has 20 mm diameter a 120 mm length, while the solid rod CD has 10 mm diameter and 100 mm length. Allh rods are made of steel with E-200 GPa. the assembly is subjected to 100 kN tensile force (CLO5) The average normal stress between A and...
QUESTION 1 Two solid cylindrical rods are joined at B and loaded as shown in figure )below. Rod AlB is made of steel -300 GPa) and rod BC of beras OP105 GPa) Amwer P= 30kN 30 250 mm OLN Figure (1) KN,(2.0 points) The axial load in segment AB is 녹 -30 70 QUESTION 2 The deformatioa6,/, is mm. (CLOO 0.0 points) 0 530 0.836 0053 QUESTION3 The axial load in segment BC is … kN. (CLO 1) (2.0 points)...
2. Two solid cylindrical rods AB and BC are wớided together at B and loaded as shown. Knowing that the average normal stress must not exceed 180x 10ºPa in rod AB and 155 x10 Pa in rod BC, determine the smallest allowable diameter of AB and BC. O IN 250 SOEN 1
Two different rectangular bases metallic rods bonded together in order to form a shape like in the figure. If we want to measure the equivalent resistance of system what will be the value? (Note we are applying current from AB and BC surfaces to other ends)
Required information Two solid cylindrical rods AB and BC are welded together at B and loaded as shown. Knowing that the magnitude of the average normal stress must not exceed 145 MPa in either rod, determine the smallest allowable values of the diameters d and d2. Take P = 55 kN and Q = 140 kN. di Q KN B с А PKN Q KN 0.9 m 1.2 m Using FBDs/equilibrium equations for ABC, cut sections between A&B and between...
Part A The cotter is used to hold the two rods together. (Figure 1) All parts are made of steel for which the failure normal stress is fail = 510 MPa and the failure shear stress is Trail = 365 MPa. Use a factor of safety of (F.S.)t = 2.30 in tension and (F.S.), = 1.71 in shear. Determine the smallest thickness t of the cotter. Express your answer to three significant figures and include appropriate units. de = Value...
The filleted plate shown in figure 1 below supports an axial load "P" and has a thickness "t". The "hole" and "fillets" are far enough apart from each other so the stress concentration of one does not influence the stress concentration of the other. Use this information and the values given abovethe following figure to answer the following questions. (Assume the plate is made of relatively brittle material.) a.) What is the stress concentration factor Kt for the hole? b.)...
9.18 Two solid cylindrical rods are joined at B and loaded as shown AB is made of steel (E = 200 GPa) and rod BC of brass (E = 1 GPa). Determine (a) the total deformation of the composite rod ARC (b) the deflection of point B. P = 30 KN + 30 mm 250 mm 40 KN 300 mm -50 mm Fig. P9.18
The cotter is used to hold the two rods together.(Figure 1) All parts are made of steel for which the failure normal stress is ?fail=525 MPa and the failure shear stress is ?fail=325 MPa. Use a factor of safety of (F.S.)t=2.90 in tension and(F.S.)s=1.70 in shear. Determine the smallest thickness t of the cotter. Determine the smallest diameter d of the rods.