d2 \\\ А Brass B Aluminum Li L2 The two rods below are constrained between two...
Problem 6 А 300 mm di B 50 KN 250 mm d2 C P steel Section AB is made of Steel (E = 210 GPa) Section BC is made of Aluminium (EAL = 68 GPa) P = 16 KN d1 = 99 mm d2 = 49 mm 1- Calculate the maximum average normal stress on the composite rod ABC in MPa. 2- Calculate the total deformation of the composite rod ABC in mm. 3- Calculate the new length of the...
3. A rod consisting of two cylindrical portions AB and BC is restrained at both ends, as shown in figure Q3 below. Portion AB is made of brass (E 105 Gpa, and ь-20.9 x 10-6 per °C) and portion BC is made out of aluminum (Eb 72 Gpa, and otb 23.9 x 106 per °C). The rod is initially unstressed at room temperature of 20 °C. If the temperature changes to 62 °C, find: a) the resulting normal stress in...
Please also explain, thank you! In the system below, the shaft is solid from A to C, hollow from C to D and is made of a material with shear modulus G = 52 GPa. The solid shaft AB has diameter di = 29 mm, the solid shaft BC has diameter d2 = 51 mm and the tubular shaft CD has outer diameter d2 and inner diameter dį. A torque TB = 1421 N. m is applied at B and...
a and b The assembly consists of two red brass C83400 copper rods AB and CD of diameter 30 mm a stainless 304 steel alloy rod EF of diameter 40 mm and a rigid cap G. The supports at A, C and F are rigid ▼ Part A Determine the average normal stress developed in the rod AB Express your answer to three significant figures and include the appropriate units. Figure 1 of 1 Value Units ƠAB : --300 mm...
The assembly consists of two red brass C83400 copper rods ABAB and CDCD of diameter 30 mmmm, a stainless 304 steel alloy rod EFEF of diameter 40 mmmm, and a rigid cap GG. The supports at AA, CC and FF are rigid.Modul of elasticy for the copper is EcopperEcopper = 101 GPaGPa. Modul of elasticity for the steel is EsteelEsteel = 193 GPaGPa.(a) Determine the average normal stress developed in the rod ABAB.(b) Determine the average normal stress developed in the rod CDCD.
A rod is made from two segments: AB is steel and BC is brass. It is fixed at its ends and subjected to a torque of T = 615 Nm. The steel portion has a diameter of 30 mm c B 1.60 m A 0.75 m G t = 75GPa, Gb = 39 GPa Part A Determine the required diameter of the brass portion so the reactions at the walls will be the same. Express your answer to three significant...
I Solve any five of following questions (show all the necessary steps) and submit until August-01-2020 in PDF file format 1. Draw the shear and bending-moment diagrams for the beam and loading shown below and A B 400 mm 400 mm 250 mm 12 kN 8 KN If the shaft has a diameter of 6cm, Determine the A. Shear forces B. Moment of arms C. The absolute maximum Bending stress in the shaft. 2. Two solid cylindrical rods AB 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)...
P6.042 The composite shaft shown in the figure consists of two steel pipes that are connected at flange B and securely attached to rigid walls at A and C. Steel pipe (1) has an outside diameter of 173 mm and a wall thickness of 6 mm. Steel pipe (2) has an outside diameter of 101 mm and a wall thickness of 7 mm. Both pipes are 3.4 m long and have a shear modulus of 80 GPa. If a concentrated...
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...