Calculate the stress in the member indicated below. Name the stress (compressive or tensile)
Calculate the stress in the member indicated below. Name the stress (compressive or tensile) 5m SON...
Calculate the change of length in the member above (2.1) if it is given that E: Young's modulus (modulus of Elasticity = 190 Gpa(Giga Pascal) 5m SON SOKN cross sectional area: 60mm x 60mm
Please good hand writing I will rate For a square 50x50 mm cross-section find the maximum tensile and compressive stress, if P-9.5 kN. Plot the total stress across the cross-section. 1. 100 mm 30 mm For a square 50x50 mm cross-section find the maximum tensile and compressive stress, if P-9.5 kN. Plot the total stress across the cross-section. 1. 100 mm 30 mm
P = 20 kN. Calculate the following: 1. The maximum tensile and compressive stresses at the base of the mast A 2. The maximum tensile and compressive stresses at point B of the mast For each stress state at A and B indicate which side of the mast experiences tension and which side experiences compression. 0.25 m m D w 3 m H С. - 0.1 m mast cross section 3 m 60° Р B 584 mm 6 m mast...
Compute the maximum tensile and compressive bending stress for the cantilever beam with uniform load w = 65 kN/m and the cross-section shown below.
what is the maximum tensile and compressive bending stress in the beam below? Also if allowable bending stress is 10 ksi whats the maximum moment the section can withstand? in M-15 kip-ft 1 in 1 in.
The flanged member shown below is subjected to an internal axial force of P = 6500 lb, an internal shear force of V = 4500 lb, and an internal bending moment of M = 19200 lb-ft, acting in the directions shown. d M Iw y HI a y Ilk thu The dimensions of the cross section are: bf = 8.0 in. tp = 0.61 in. d = 11.0 in. tw = 0.38 in. The cross-sectional area of the flanged shape...
Tensile strain is: A) the stress per unit area B) the same as force C) the ratio of stress to elastic modulus D) the applied force per cross-sectional area E) the ratio of the change in length to the original length
1) (100) For the following truss Determine the horizontal and vertical components of the reaction at pin C, and the a. reaction at roller F required to support the truss. Use the method of joints to find the internal forces of each member b. Assuming the maximum allowable tensile stress is 36 ksi and the maximum allowable C. compressive stress is 30ksi what is the required cross sectional area? Assume each member has the same cross sectional area. A 20...
2. A redwood timber member w/ a 20 inch square cross section is reinforced w/ an ASTM structural steel Angle (L6 x 6 x 1) at each corner as shown. The materials are so attached as to act as a single unit. Compute the total allowable axial compressive load that may be applied through a rigid cap plate that covers the entire cross-sectional area. Use dressed dimensions and assume the materials have the same length. The allowable compressive stress is...
use this formulas $50 kNm Determine the maximum compressive and tensile normal stress in the cross-section shown in the figure. 10 cm 15 cm 10 cm 15 cm 50 kNm Determine the maximum normal stress in the cross-sect 10 cm 15 cm 10 cm 15 cm T.C. PIRI REIS UNIVERSITY, ENGINEERING FACULTY Formulae and Constants Relations between w, V.M Torsion dV(x) = (x), NGUV) Shear stress in shaft with circular cross-section: where Axial Load for solid cross-section, for tubular cross...