Calculate the buckling stress in MPa of rod BC (E=200 GPa) about the x-x axis, if...
Calculate the buckling stress in MPa of rod BC (E=200 GPa) about the x-x axis, if a -16 mm and b = 34 mm. Assume pin-pin connection. Round your answer to 2 decimal places. B a 3 m b 4 m
Calculate the buckling stress in MPa of rod BC (E=200 GPa) about the y-y axis, if a =24 mm and b = 38 mm. Assume fixed-fixed connection. Round your answer to 2 decimal places. a B X 3 m b V Α. C 4 m
Calculate the buckling stress in MPa of rod BC (E=200 GPa) about the y-y axis, if a = 16 mm and b = 34 mm. Assume fixed-fixed connection. Round your answer to 2 decimal places. B a 3 m y C 4 m
Calculate the buckling stress in MPa of rod BC (E-200 GPa) about the yay axis. If a 19 mm and b-32 mm. Komeadfed currection Party 2 decimal places a B 3 m b
The 4-mm-diameter cable BC is made of a steel with E = 200 GPa. Knowing that the maximum stress in the cable must not exceed 190 MPa and that the elongation of the cable must not exceed 5 mm, find the maximum load P that can be applied as shown. В 2.5 m P 3.5 m с -4.0 m
The rod ABCD is made of an aluminum alloy with a modulus of elasticity E = 70 GPa. For the loading shown, and neglecting the weight of the rod, determine the stress in sections AB, BC, and CD and the deflection of point D. For stress, answer to nearest whole number. Use 3 decimal places for displacement. Drawing is not to scale. Assume compressive stresses are positive, and that displacement to the right is positive. Stress in AB = _______ MPa Stress...
Figure Q1 The jib crane is pinned at A and supports a chain hoist that can travel along the bottom flange of the a) the force in rod BC b) the minimum diameter of rod BC (to the nearest 5 mm). c) the minimum diameter of pin B (to the nearest 5 mm). The material properties are listed in Table Q2 and use factor of safety of FS-2 (10 marks) beam boist Figure Q2 Table Q2: Material properties (MPa) Shear...
Required information The 4-mm-diameter cable BC is made of a steel with E= 200 GPa. Knowing that the maximum stress in the cable must not exceed 200 MPa and that the elongation of the cable must not exceed 7 mm. Ifa - 3 m and b 4 m, find the allowable load P that can be applied as shown
MATERIAL HAS SIGMA F = 220 MPa, E = 200 GPa, Poisson's ratio v =
0.3, and alpha = 12 x 10^-6 /degrees C
Question 3 The circular steel rod (D=0.1 m) in Figure 3 is constrained by end plates and is subjected to axial load P. Calculate: 1. The internal reaction in AB 2. The internal reaction in BC 3. The maximum value for P for the rod to carry the load with a safety margin of 30%. 4....
σf = 220 MPa, E = 200 GPa, ν = 0.3, and α = 12×10-6/°C
Find the maximum torque with a 30% safety margin using
Tresca
Calculate the resulting angle of twist of plane B relative to A,
C relative to B, and C relative to A
Calculate σ1 and σ2 in AB
Find the change in length of BC if ΔT = +100°C
-4T +T A 0.5 m B. 0.2 m Go С X X 1 m 1 m